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Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
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We encourage you to perform a real-time search of NLEBeta
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1

Wyoming State Regulations  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming State Regulations: Wyoming State of Wyoming The Wyoming Oil and Gas Conservation Commission (WOGCC) is the state agency authorized to regulate oil and gas exploration and production waste. The Wyoming Department of Environmental Quality (DEQ) administers general environmental protection regulations. Contact Wyoming Oil and Gas Conservation Commission 2211 King Blvd. Casper, WY 82602 (street address) P.O. Box 2640 Casper, WY 82602 (mailing address) (307) 234-7147 (phone) (307) 234-5306 (fax) Wyoming Department of Environmental Quality 122 West 25th Street, Herscheler Building Cheyenne, WY 82002 (307) 777-7937 (phone) (307) 777-7682 (fax) Disposal Practices and Applicable Regulations Document # 4855, Agency (Oil and Gas Conservation Commission), General Agency, Board or Commission Rules, Chapter 4 (Environmental Rules, Including Underground Injection Control Program Rules for Enhanced Recovery and Disposal Projects), Section 1. Pollution and Surface Damage (Forms 14A and 14B) of the Wyoming Rules and Regulations contains the environmental rules administered by the WOGCC with respect to management options for exploration and production waste.

2

LL Pm  

Office of Legacy Management (LM)

LL LL Pm ' F II c iJr Fa, i n m n ys m * t F t F c* F F -- ORAU 89/G-77 IL. 17- Prepared by Oak Ridge Associated Universities Prepared for Division of Facility and Site Decommissioning U.S. Department of Energy RADIOLOGICAL SURVEY AT 18 HENDERSON STREET JOLIET, ILLINOIS M. R. LANDIS Environmental Survey and Site Assessment Program Energy/Environment Systems Division FINAL REPORT OCTOBER 1989 . rlly mfhct Ez of the 8pmnmtng Institutiona of Oak Ridga Asaodatd ThsoplnlonBoxpmnsdhDrDlndonotnnasn IJnm T~~m~rdnM~ofvrorks~byt~Unk~S~~ Gowmmat. N&her tha Unltd States Govsmmmrtl nor~US.~punmtatErmpy,nor8nyof~r~plqow.nw)cn~w~,orpm~orknplkd,oruruma~y~8Ii~bUby or msponslbUlty lor tlu sccumcy. complot~nass. or udutfan of my InformWon, l pparatu% product, or procow

3

Wyomings Rosy Financial Picture  

E-Print Network (OSTI)

J. (2011b) Wyoming Clean Coal Efforts Advance, Casperadministra- tion pushes for clean-coal and carbon capture

Schuhmann, Robert A.; Skopek, Tracy A.

2012-01-01T23:59:59.000Z

4

Assessing the cumulative impacts of surface mining and coal bed methane development on shallow aquifers in the Powder River Basin, Wyoming  

SciTech Connect

Large scale surface coal mining taken place along the cropline of the Wyodak-Anderson coal seam since approximately 1977. Groundwater impacts due to surface mining of coal and other energy-related development is a primary regulatory concern and an identified Office of Surface Mining deficiency in the Wyoming coal program. The modeled aquifers are the upper unit (coal) of the Paleocene Fort Union Formation and the overlying Eocene Wasatch Formation. A regional groundwater model covering 790 square miles was constructed using MODFLOW, to simulate the impacts from three surface coal mines and coal bed methane development occurring downdip. Assessing anisotropy of the coal aquifer, quality checking of in situ aquifer tests and database quality control were precursors to modelling. Geologic data was kriged to develop the structural model of the aquifers. A Geographic Information System (GIS) was utilized to facilitate storage, analysis, display, development of input modelling arrays and assessment of hydrologic boundaries. Model output presents the predicted impacts of likely development scenarios, including impacts from coal bed methane development and surface coal mining through anticipated life of mining, and surface mining impacts independent of gas development.

Peacock, K. [Dept. of Interior, Casper, WY (United States)

1997-12-31T23:59:59.000Z

5

,"Wyoming Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050WY3","N3010WY3","N3020WY3","N3035WY3","NA1570SWY3","N3045WY3" "Date","Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Wyoming Natural Gas...

6

Wyoming/Incentives | Open Energy Information  

Open Energy Info (EERE)

Wyoming/Incentives Wyoming/Incentives < Wyoming Jump to: navigation, search Contents 1 Financial Incentive Programs for Wyoming 2 Rules, Regulations and Policies for Wyoming Download All Financial Incentives and Policies for Wyoming CSV (rows 1 - 42) Financial Incentive Programs for Wyoming Download Financial Incentives for Wyoming CSV (rows 1 - 34) Incentive Incentive Type Active Black Hills Power - Commercial Energy Efficiency Programs (Wyoming) Utility Rebate Program Yes Black Hills Power - Residential Customer Rebate Program (Wyoming) Utility Rebate Program Yes Black Hills Power - Residential Energy Efficiency Rebate Program (Wyoming) Utility Rebate Program No Carbon Power & Light - Energy Conservation Home Improvement Loan (Wyoming) Utility Loan Program No

7

Wyoming.indd  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming www.effi cientwindows.org March 2013 1. Meet the Energy Code and Look for the ENERGY STAR ® Windows must comply with your local energy code. Windows that are ENERGY STAR qualifi ed typically meet or exceed energy code requirements. To verify if specific window energy properties comply with the local code requirements, go to Step 2. 2. Look for Effi cient Properties on the NFRC Label The National Fenestration Rating Council (NFRC) label is needed for verifi cation of energy code compliance (www.nfrc. org). The NFRC label displays whole- window energy properties and appears on all fenestration products which are part of the ENERGY STAR program.

8

Wyoming.indd  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming www.effi cientwindows.org March 2013 1. Meet the Energy Code and Look for the ENERGY STAR ® Windows must comply with your local energy code. Windows that are ENERGY STAR qualifi ed typically meet or exceed energy code requirements. To verify if specific window energy properties comply with the local code requirements, go to Step 2. 2. Look for Effi cient Properties on the NFRC Label The National Fenestration Rating Council (NFRC) label is needed for verifi cation of energy code compliance (www.nfrc. org). The NFRC label displays whole- window energy properties and appears on all fenestration products which are part of the ENERGY STAR program.

9

Mechanical models of fracture reactivation and slip on bedding surfaces during folding of the asymmetric anticline at Sheep Mountain, Wyoming  

E-Print Network (OSTI)

Mechanical models of fracture reactivation and slip on bedding surfaces during folding June 2008 Accepted 5 June 2008 Available online 13 June 2008 Keywords: Fold Fracture reactivation Bed methods to investigate the reactivation of fractures (opening and shearing) and the development of bedding

Borja, Ronaldo I.

10

Laramie, Wyoming December, 1999  

E-Print Network (OSTI)

://www.wsgsweb.uwyo.edu Front cover: Coalbed methane drilling rig on location, southeastern edge of the Washakie Basin, southern Wyoming. This rig is exploring for coalbed methane in coals of the Almond Formation, Mesaverde Group ........................................................... 28 Coalbed methane developments...................................................... 28 Regulatory

Laughlin, Robert B.

11

Microsoft Word - wyoming.doc  

Gasoline and Diesel Fuel Update (EIA)

Wyoming Wyoming NERC Region(s) ....................................................................................................... WECC Primary Energy Source........................................................................................... Coal Net Summer Capacity (megawatts) ....................................................................... 7,986 37 Electric Utilities ...................................................................................................... 6,931 31 Independent Power Producers & Combined Heat and Power ................................ 1,056 41 Net Generation (megawatthours) ........................................................................... 48,119,254 31

12

Microsoft Word - wyoming.doc  

U.S. Energy Information Administration (EIA) Indexed Site

Wyoming Wyoming NERC Region(s) ....................................................................................................... WECC Primary Energy Source........................................................................................... Coal Net Summer Capacity (megawatts) ....................................................................... 7,986 37 Electric Utilities ...................................................................................................... 6,931 31 Independent Power Producers & Combined Heat and Power ................................ 1,056 41 Net Generation (megawatthours) ........................................................................... 48,119,254 31

13

Wyoming Water Resources Center Annual Technical Report  

E-Print Network (OSTI)

by the United States Geological Survey, State Water Resources Research Institute Program allowed the Wyoming and Natural Resources, and at Wyoming State Water Plan meetings. We attended conferences hosted by the WyomingWyoming Water Resources Center Annual Technical Report FY 1999 Introduction Research Program

14

QN&-ll.  

Office of Legacy Management (LM)

_I _I .,;r* r . . . . 2:. . QN&-ll. ' _ The Secretary oi Energy' 0;. .- .: . ' Washington, OC-20585 ' . .October 10, 1997 ' ._ : .I . . The ,I%onorable William S. Cohen Secretary ofDefense Washington, D.C. 203Oi .. .y .' *- - jk-ar Mr. Secretary: . . . r The .Congress recently sent to the President for signature the Energy and Water Development Appropriations Act, 1998. Among other provisions, this bill would immediately transfer responsibility for the Formerly ' Utilized Sites Remedial Action Program (FIBRAP) from the Department of Energy to the United States Army Corps of Engineers.. ;Assuming that this transfer becomes law, but without prejudging the President' s decision, the Department of Energy will work with the Corps to ensure a prompt and smooth transition, consistent with the wishes of the

15

Alternative Fuels Data Center: Wyoming Information  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Wyoming Information to Wyoming Information to someone by E-mail Share Alternative Fuels Data Center: Wyoming Information on Facebook Tweet about Alternative Fuels Data Center: Wyoming Information on Twitter Bookmark Alternative Fuels Data Center: Wyoming Information on Google Bookmark Alternative Fuels Data Center: Wyoming Information on Delicious Rank Alternative Fuels Data Center: Wyoming Information on Digg Find More places to share Alternative Fuels Data Center: Wyoming Information on AddThis.com... Wyoming Information This state page compiles information related to alternative fuels and advanced vehicles in Wyoming and includes new incentives and laws, alternative fueling station locations, truck stop electrification sites, fuel prices, and local points of contact. Select a new state Select a State Alabama Alaska Arizona Arkansas

16

Wyoming | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming Last updated on 2013-06-03 Commercial Residential Code Change Current Code None Statewide Amendments / Additional State Code Information The International Conference of Building Officials (ICBO) Uniform Building Code, which is based on the 1989 Model Energy Code (MEC), may be adopted and enforced by local jurisdictions. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE Standard 90.1-2007 for Commercial Buildings in the State of Wyoming (BECP Report, Sept. 2009) Approximate Energy Efficiency Less energy efficient than 2003 IECC Effective Date 08/13/2008 Code Enforcement Voluntary DOE Determination ASHRAE Standard 90.1-2007: No ASHRAE Standard 90.1-2010: No Wyoming DOE Determination Letter, May 31, 2013 Current Code None Statewide

17

Recovery Act State Memos Wyoming  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Wyoming Wyoming For questions about DOE's Recovery Act activities, please contact the DOE Recovery Act Clearinghouse: 1-888-DOE-RCVY (888-363-7289), Monday through Friday, 9 a.m. to 7 p.m. Eastern Time https://recoveryclearinghouse.energy.gov/contactUs.htm. All numbers and projects listed as of June 1, 2010 TABLE OF CONTENTS RECOVERY ACT SNAPSHOT................................................................................... 1 FUNDING ALLOCATION TABLE.............................................................................. 2 ENERGY EFFICIENCY ............................................................................................... 3 ELECTRIC GRID ........................................................................................................ 4

18

Baseline studies of surface gas exchange and soil-gas composition in preparation for CO{sub 2} sequestration research: Teapot Dome, Wyoming  

SciTech Connect

A baseline determination of CO{sub 2} and CH{sub 4} fluxes and soil-gas concentrations of CO{sub 2} and CH{sub 4} was made over the Teapot Dome oil field in the Naval Petroleum Reserve 3 in Natrona County, Wyoming, United States. This was done in anticipation of the experimentation with CO{sub 2} sequestration in the Pennsylvanian Tensleep Sandstone underlying the field at a depth of 1680 m. The measurements were made in January 2004 to capture the system with minimum biological activity in the soils, resulting in a minimum CO{sub 2} flux and a maximum CH{sub 4} flux. The CO{sub 2} fluxes were measured in the field with an infrared spectroscopic method. The CH{sub 4} fluxes were determined from gas-chromatographic measurements on discrete samples from under the flux chambers. The CO{sub 2} and CH{sub 4} were determined at 30-, 60-, and 100-cm depths in soil gas by gas chromatography. A total of 40 locations had triplicate flux measurements using 1.00-m{sup 2} chambers, and soil gas was sampled at single points at each of the 40 locations. Carbon dioxide fluxes averaged 227.1 CO{sub 2} m{sup -2} day{sup -1}, a standard deviation of 186.9 mg m{sup -2} day{sup -1}, and a range of - 281.7 to 732.9 mg m{sup -2} day{sup -1}, not including one location with subsurface infrastructure contamination. Methane fluxes averaged 0.137 mg CH{sub 4} m{sup -2} day{sup -1}, standard deviation of 0.326 mg m{sup -2} day{sup -1}, and a range of -0.481 to 1.14 mg m{sup -2} day{sup -1}, not including the same contaminated location.

Klusman, R.W. [Colorado School of Mines, Golden, CO (US). Dept. of Chemistry & Geochemistry

2003-08-01T23:59:59.000Z

19

Wyoming/Geothermal | Open Energy Information  

Open Energy Info (EERE)

Wyoming Wyoming Jump to: navigation, search GEOTHERMAL ENERGYGeothermal Home Print PDF Wyoming Geothermal General Regulatory Roadmap Geothermal Power Projects Under Development in Wyoming No geothermal projects listed. Add a geothermal project. Operational Geothermal Power Plants in Wyoming No geothermal power plants listed. Add a geothermal energy generation facility. Geothermal Areas in Wyoming Mean Capacity (MW) Number of Plants Owners Geothermal Region Huckleberry Hot Springs Geothermal Area 38.744 MW38,744.243 kW 38,744,243.17 W 38,744,243,170 mW 0.0387 GW 3.874424e-5 TW Yellowstone Caldera Geothermal Region Seven Mile Hole Geothermal Area Yellowstone Caldera Geothermal Region GRR-logo.png Geothermal Regulatory Roadmap for Wyoming Overview Flowchart The flowcharts listed below were developed as part of the Geothermal

20

Wyoming/Transmission | Open Energy Information  

Open Energy Info (EERE)

source source History View New Pages Recent Changes All Special Pages Semantic Search/Querying Get Involved Help Apps Datasets Community Login | Sign Up Search Page Edit History Facebook icon Twitter icon » Wyoming/Transmission < Wyoming Jump to: navigation, search WyomingTransmissionHeader.png Roadmap Agency Links Local Regulations State Regulations Summary General Transmission Dashboard Permitting Atlas Compare States Arizona California Colorado Idaho Montana Nevada New Mexico Oregon Utah Washington Wyoming Resource Library NEPA Database The electrical grid in Wyoming is part of the WestConnect Transmission Planning area, and covers the southwest of the United States. Within the WestConnect system, Wyoming is part of the Colorado Coordinated Planning Group (CCPG) power grid that covers Colorado and portions of Wyoming.

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Wyoming Wyoming Categorical Exclusion Determinations: Wyoming Location Categorical Exclusion Determinations issued for actions in Wyoming. DOCUMENTS AVAILABLE FOR DOWNLOAD July 26, 2013 CX-010688: Categorical Exclusion Determination Optimization Project #3 CX(s) Applied: B2.5, B5.2, B5.4, B5.5 Date: 07/26/2013 Location(s): Wyoming Offices(s): RMOTC July 26, 2013 CX-010687: Categorical Exclusion Determination Optimization Project Area #1 CX(s) Applied: B2.5, B5.2, B5.4, B5.5 Date: 07/26/2013 Location(s): Wyoming Offices(s): RMOTC July 2, 2013 CX-010686: Categorical Exclusion Determination Cheyenne Substation KV2A 115-kilovolt Tie Line Installation CX(s) Applied: B4.6 Date: 07/02/2013 Location(s): Wyoming Offices(s): Western Area Power Administration-Rocky Mountain Region June 28, 2013

22

PacifiCorp (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming) Wyoming) (Redirected from Rocky Mountain Power (Wyoming)) Jump to: navigation, search Name PacifiCorp Place Wyoming Service Territory Wyoming Website www.rockymountainpower.ne Green Button Reference Page www.rockymountainpower.ne Green Button Implemented Yes Utility Id 14354 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. PacifiCorp consists of three business units. Rocky Mountain Power is a subsidiary of PacifiCorp which delivers electricity to customers in Utah, Wyoming and Idaho, it is headquartered in Salt Lake City, UT. Utility Rate Schedules Grid-background.png 2 Residential 25 (Small General Service - Three Phase Secondary) Commercial

23

Wyoming's Economic Future: Planning for Sustained Prosperity  

NLE Websites -- All DOE Office Websites (Extended Search)

the Highest-Priority the Highest-Priority Geological CO 2 Storage Sites and Formations in Wyoming Ronald C. Surdam Director, Carbon Management Institute Modified from Surdam, R.C., Jiao, Z., Stauffer, P., & Miller, T., 2009, An integrated strategy for carbon management combining geological CO 2 sequestration, displaced fluid production, and water treatment: Wyoming State Geological Survey Challenges in Geologic Resource Development No. 8, 25 p. WSGS, UW, State, and DOE- funded research identified two high-capacity sites in southwest Wyoming: Rock Springs Uplift & Moxa Arch Carbon Capture Potential In Southwest Wyoming Surdam, R.C. & Jiao, Z., 2007, The Rock Springs Uplift: An outstanding geological CO 2 sequestration site in southwest Wyoming: Wyoming State Geological Survey Challenges in Geologic Resource

24

Wyoming DOE EPSCoR  

SciTech Connect

All of the research and human resource development projects were systemic in nature with real potential for becoming self sustaining. They concentrated on building permanent structure, such as faculty expertise, research equipment, the SEM Minority Center, and the School of Environment and Natural Resources. It was the intent of the DOE/EPSCoR project to permanently change the way Wyoming does business in energy-related research, human development for science and engineering careers, and in relationships between Wyoming industry, State Government and UW. While there is still much to be done, the DOE/EPSCoR implementation award has been successful in accomplishing that change and enhancing UW's competitiveness associated with coal utilization, electrical energy efficiency, and environmental remediation.

Gern, W.A.

2004-01-15T23:59:59.000Z

25

,"Wyoming Natural Gas Gross Withdrawals and Production"  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Gross Withdrawals and Production",10,"Monthly","92014","1151989" ,"Release...

26

,"Wyoming Coalbed Methane Proved Reserves, Reserves Changes,...  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Coalbed Methane Proved Reserves, Reserves Changes, and Production",10,"Annual",2013,"630...

27

Montana-Dakota Utilities Co (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

MDU Resources Group Inc (Wyoming)) Jump to: navigation, search Name: Montana-Dakota Utilities Co Place: Wyoming References: Energy Information Administration.1 EIA Form 861 Data...

28

Ll  

Office of Legacy Management (LM)

a contract with the United ltates of America (represented by its duly designated contracting officer) under ontract designated as No. W 7401-Eng.3'7 and supplements thoreto to...

29

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

March 7, 2012 March 7, 2012 CX-008379: Categorical Exclusion Determination Archer Communications Building CX(s) Applied: B4.6 Date: 03/07/2012 Location(s): Wyoming Offices(s): Western Area Power Administration-Rocky Mountain Region January 24, 2012 CX-008675: Categorical Exclusion Determination Sustainable Energy Solutions LLC - Cryogenic Carbon Capture (Phase 2) CX(s) Applied: B3.6, B3.9 Date: 01/24/2012 Location(s): Utah, Wyoming Offices(s): Advanced Research Projects Agency-Energy January 12, 2012 CX-007755: Categorical Exclusion Determination Routine and Proposed Actions at the Riverton, Wyoming, Processing Site CX(s) Applied: B1.3, B3.1 Date: 01/12/2012 Location(s): Wyoming Offices(s): Legacy Management December 15, 2011 CX-007515: Categorical Exclusion Determination Bucknam Temporary Tap, Natrona County, Wyoming

30

Alternative Fuels Data Center: Wyoming Points of Contact  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Wyoming Points of Wyoming Points of Contact to someone by E-mail Share Alternative Fuels Data Center: Wyoming Points of Contact on Facebook Tweet about Alternative Fuels Data Center: Wyoming Points of Contact on Twitter Bookmark Alternative Fuels Data Center: Wyoming Points of Contact on Google Bookmark Alternative Fuels Data Center: Wyoming Points of Contact on Delicious Rank Alternative Fuels Data Center: Wyoming Points of Contact on Digg Find More places to share Alternative Fuels Data Center: Wyoming Points of Contact on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Points of Contact The following people or agencies can help you find more information about Wyoming's clean transportation laws, incentives, and funding opportunities.

31

Alternative Fuels Data Center: Wyoming Laws and Incentives  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Wyoming Laws and Wyoming Laws and Incentives to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives Listed below are incentives, laws, and regulations related to alternative fuels and advanced vehicles for Wyoming. Your Clean Cities coordinator at

32

Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"TERRAIN","zoom":6,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"500px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.0759678,"lon":-107.2902839,"alt":0,"address":"Wyoming","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

33

PacifiCorp (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming Wyoming Service Territory Wyoming Website www.rockymountainpower.ne Green Button Reference Page www.rockymountainpower.ne Green Button Implemented Yes Utility Id 14354 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. PacifiCorp consists of three business units. Rocky Mountain Power is a subsidiary of PacifiCorp which delivers electricity to customers in Utah, Wyoming and Idaho, it is headquartered in Salt Lake City, UT. Utility Rate Schedules Grid-background.png 2 Residential 25 (Small General Service - Three Phase Secondary) Commercial 28 (General Service - Three Phase Secondary) Commercial 46 (Time Of Use Three Phase Secondary) Commercial

34

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

July 30, 2012 July 30, 2012 CX-009090: Categorical Exclusion Determination Line Switch Replacements at Guernsey Rural, Worland, Refinery, Box Butte, and Morrill Taps CX(s) Applied: B4.6, B4.11 Date: 07/30/2012 Location(s): Wyoming, Nebraska Offices(s): Western Area Power Administration-Rocky Mountain Region July 23, 2012 CX-008784: Categorical Exclusion Determination License Outgrant to Owl Creek Water District Town of Thermopolis, Hot Springs County, Wyoming CX(s) Applied: B4.9 Date: 07/23/2012 Location(s): Wyoming Offices(s): Western Area Power Administration-Rocky Mountain Region July 23, 2012 CX-008496: Categorical Exclusion Determination Interstate Electrification Improvement CX(s) Applied: B5.1 Date: 07/23/2012 Location(s): Wyoming Offices(s): National Energy Technology Laboratory

35

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

August 11, 2010 August 11, 2010 CX-006735: Categorical Exclusion Determination Hyperspectral Survey CX(s) Applied: B3.8, B3.11 Date: 08/11/2010 Location(s): Casper, Wyoming Office(s): RMOTC August 4, 2010 CX-003231: Categorical Exclusion Determination Wyoming American Recovery and Reinvestment Act State Energy Program CX(s) Applied: A1, A9, B5.1 Date: 08/04/2010 Location(s): Wyoming Office(s): Energy Efficiency and Renewable Energy, Golden Field Office July 13, 2010 CX-003032: Categorical Exclusion Determination Pacific Northwest Smart Grid Demonstration CX(s) Applied: A1, A9, A11, B1.7, B3.6, B4.4, B5.1 Date: 07/13/2010 Location(s): Jackson Hole, Wyoming Office(s): Electricity Delivery and Energy Reliability, National Energy Technology Laboratory July 9, 2010 CX-006699: Categorical Exclusion Determination

36

Wyoming/Wind Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming/Wind Resources Wyoming/Wind Resources < Wyoming Jump to: navigation, search Print PDF Print Full Version WIND ENERGY STAKEHOLDER ENGAGEMENT & OUTREACHSmall Wind Guidebook Home OpenEI Home >> Wind >> Small Wind Guidebook >> Wyoming Wind Resources WindTurbine-icon.png Small Wind Guidebook * Introduction * First, How Can I Make My Home More Energy Efficient? * Is Wind Energy Practical for Me? * What Size Wind Turbine Do I Need? * What Are the Basic Parts of a Small Wind Electric System? * What Do Wind Systems Cost? * Where Can I Find Installation and Maintenance Support? * How Much Energy Will My System Generate? * Is There Enough Wind on My Site? * How Do I Choose the Best Site for My Wind Turbine? * Can I Connect My System to the Utility Grid? * Can I Go Off-Grid?

37

Wyoming Municipal Power Agency | Open Energy Information  

Open Energy Info (EERE)

Wyoming Municipal Power Agency Wyoming Municipal Power Agency Place Wyoming Utility Id 40603 Utility Location Yes Ownership A NERC Location WECC NERC WECC Yes Operates Generating Plant Yes Activity Generation Yes Activity Transmission Yes Activity Buying Transmission Yes Activity Wholesale Marketing Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png No rate schedules available. Average Rates No Rates Available References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a" Retrieved from "http://en.openei.org/w/index.php?title=Wyoming_Municipal_Power_Agency&oldid=412214

38

Wyoming Wind Power Project (generation/wind)  

NLE Websites -- All DOE Office Websites (Extended Search)

Wind Power > Generation Hydro Power Wind Power Monthly GSP BPA White Book Dry Year Tools Firstgov Wyoming Wind Power Project (Foote Creek Rim I and II) Thumbnail image of wind...

39

Wyoming Coalbed Methane Production (Billion Cubic Feet)  

Annual Energy Outlook 2012 (EIA)

Production (Billion Cubic Feet) Wyoming Coalbed Methane Production (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 133 278...

40

Wyoming Coalbed Methane Proved Reserves Acquisitions (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Acquisitions (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Acquisitions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

Wyoming Coalbed Methane Proved Reserves Adjustments (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Adjustments (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Adjustments (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

42

Wyoming Recovery Act State Memo | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Wyoming Recovery Act State Memo Wyoming Recovery Act State Memo Wyoming Recovery Act State Memo Wyoming has substantial natural resources including coal, natural gas, oil, and wind power. The American Recovery & Reinvestment Act (ARRA) is making a meaningful down payment on the nation's energy and environmental future. The Recovery Act investments in Wyoming are supporting a broad range of clean energy projects from energy efficiency and the smart grid to carbon capture and storage. Through these investments, Wyoming's businesses, the University of Wyoming, non-profits, and local governments are creating quality jobs today and positioning Wyoming to play an important role in the new energy economy of the future. Recovery_Act_Memo_Wyoming.pdf More Documents & Publications Slide 1

43

5PECIAL~ NUCLEAR MATEHAL LlCENSE '  

Office of Legacy Management (LM)

: 5PECIAL NUCLEAR MATEHAL LlCENSE ' .+ .i.. Pursuant to the Atomic Ener&Ati of 1954 and Title 10, Code of Federg Regulations. Ch&ter 1; Part.70, "Special Nucleor' hkteril...

44

Alternative Fuels Data Center: Wyoming Laws and Incentives for Other  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Other to someone by E-mail Other to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Other The list below contains summaries of all Wyoming laws and incentives

45

Alternative Fuels Data Center: Wyoming Laws and Incentives  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

to someone by E-mail to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives Listed below are the summaries of all current Wyoming laws, incentives, regulations, funding opportunities, and other initiatives related to

46

Alternative Fuels Data Center: Wyoming Laws and Incentives for Other  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Other to someone by E-mail Other to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Other on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Other The list below contains summaries of all Wyoming laws and incentives

47

Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Ethanol to someone by E-mail Ethanol to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Ethanol on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Ethanol The list below contains summaries of all Wyoming laws and incentives

48

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

December 30, 2009 December 30, 2009 CX-006683: Categorical Exclusion Determination Geothermal Technologies Program CX(s) Applied: B3.1, B5.2 Date: 12/30/2009 Location(s): Casper, Wyoming Office(s): RMOTC December 29, 2009 CX-001292: Categorical Exclusion Determination Training Programs, Lighting Upgrades, Hire a Consultant, Energy Efficient Boiler Installation CX(s) Applied: A9, A11, B5.1 Date: 12/29/2009 Location(s): Cheyenne, Wyoming Office(s): Energy Efficiency and Renewable Energy December 23, 2009 CX-006679: Categorical Exclusion Determination Geothermal Technologies Program CX(s) Applied: B5.2 Date: 12/23/2009 Location(s): Casper, Wyoming Office(s): RMOTC December 23, 2009 CX-006681: Categorical Exclusion Determination New Drilling Location in Section 29 CX(s) Applied: B3.1 Date: 12/23/2009

49

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

May 26, 2011 May 26, 2011 CX-006716: Categorical Exclusion Determination New B-1-3 Pit and Box Construction CX(s) Applied: B1.3, B6.1 Date: 05/26/2011 Location(s): Casper, Wyoming Office(s): RMOTC May 17, 2011 CX-006719: Categorical Exclusion Determination Casing Drilling Test CX(s) Applied: B1.3, B3.7, B5.12 Date: 05/17/2011 Location(s): Casper, Wyoming Office(s): RMOTC May 5, 2011 CX-005852: Categorical Exclusion Determination Stegall-Wayside 230 Kilovolt Access Road Extension CX(s) Applied: B1.13 Date: 05/05/2011 Location(s): Dawes County, Wyoming Office(s): Western Area Power Administration-Rocky Mountain Region April 29, 2011 CX-005664: Categorical Exclusion Determination Development and Testing of Compact Heat Exchange Reactors (CHER) for Synthesis of Liquid Fuels CX(s) Applied: B3.6

50

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

December 8, 2010 December 8, 2010 CX-004682: Categorical Exclusion Determination Novel Sorbents for Emission Control from Coal Combustion CX(s) Applied: A9, B3.6 Date: 12/08/2010 Location(s): Laramie, Wyoming Office(s): Fossil Energy, National Energy Technology Laboratory December 8, 2010 CX-004680: Categorical Exclusion Determination Pilot Scale Demonstration of Cowboy Coal Upgrading Process CX(s) Applied: B3.6 Date: 12/08/2010 Location(s): Laramie, Wyoming Office(s): Fossil Energy, National Energy Technology Laboratory December 8, 2010 CX-004667: Categorical Exclusion Determination Alternate Environmental Processes/Sorbents to Reduce Emissions and Recover Water for Power Plant Use CX(s) Applied: B3.6 Date: 12/08/2010 Location(s): Laramie, Wyoming Office(s): Fossil Energy, National Energy Technology Laboratory

51

Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Idle Reduction to someone by E-mail Idle Reduction to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Idle Reduction on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Idle Reduction

52

Wyoming's Appliance Rebate Program Surges Ahead | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Wyoming's Appliance Rebate Program Surges Ahead Wyoming's Appliance Rebate Program Surges Ahead Wyoming's Appliance Rebate Program Surges Ahead October 19, 2010 - 12:43pm Addthis Wyoming residents can receive rebates on ENERGY STAR appliances such as clothes washers. | File photo Wyoming residents can receive rebates on ENERGY STAR appliances such as clothes washers. | File photo Lindsay Gsell What does this mean for me? Wyoming received $511,000 in Recovery Act funding for its appliance rebate program. The program has already distributed 60% of rebate funding. Wyoming's appliance rebate program, which opened in April, continues through this fall. Residents of the Equality State can receive rebates on ENERGY STAR certified clothes washers, dishwashers, water heaters and gas furnaces ranging from $50 to $250.

53

Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving /  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Driving / Idling to someone by E-mail Driving / Idling to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Driving / Idling on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Driving / Idling

54

Wyoming's Appliance Rebate Program Surges Ahead | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Wyoming's Appliance Rebate Program Surges Ahead Wyoming's Appliance Rebate Program Surges Ahead Wyoming's Appliance Rebate Program Surges Ahead October 19, 2010 - 12:43pm Addthis Wyoming residents can receive rebates on ENERGY STAR appliances such as clothes washers. | File photo Wyoming residents can receive rebates on ENERGY STAR appliances such as clothes washers. | File photo Lindsay Gsell What does this mean for me? Wyoming received $511,000 in Recovery Act funding for its appliance rebate program. The program has already distributed 60% of rebate funding. Wyoming's appliance rebate program, which opened in April, continues through this fall. Residents of the Equality State can receive rebates on ENERGY STAR certified clothes washers, dishwashers, water heaters and gas furnaces ranging from $50 to $250.

55

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

October 22, 2009 October 22, 2009 CX-006666: Categorical Exclusion Determination Geothermal Technologies Program CX(s) Applied: Date: 01/00/1900 Location(s): Casper, Wyoming Office(s): RMOTC October 20, 2009 CX-006645: Categorical Exclusion Determination T-6-10 Abandonment and Storage Relocation CX(s) Applied: B1.3, B1.22, B5.3 Date: 10/20/2009 Location(s): Casper, Wyoming Office(s): RMOTC October 20, 2009 CX-006653: Categorical Exclusion Determination B-1-3 Heat Trace CX(s) Applied: B1.3 Date: 10/20/2009 Location(s): Casper, Wyoming Office(s): RMOTC October 14, 2009 CX-006647: Categorical Exclusion Determination Move Contaminated Soil From North Water Flood to East Side Land Farm CX(s) Applied: B5.3, B5.6 Date: 10/14/2009 Location(s): Casper, Wyoming Office(s): RMOTC October 14, 2009 CX-006649: Categorical Exclusion Determination

56

Wyoming Water Resources Center Annual Technical Report  

E-Print Network (OSTI)

of America, Boulder, CO. #12;Problem and Research Objectives: Coal bed methane (CBM) development, 2001). CBM extraction involves pumping methane and ground water out of coal seams. The gas and water://wwweng.uwyo.edu/civil/research/water/epmodeler.html. University of Wyoming, Laramie. 4. Wilkerson, G. V., 2002. A GIS model for evaluating the impacts of coal bed

57

National Park Service- Yellowstone National Park, Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

Yellowstone National Park, Wyoming, has many historical sites within its boundaries. One of these is the Lamar Buffalo Ranch, a ranch that was set up in the early 1900s to breed buffalo for replacement stock within the park during a time when their numbers were very low. The ranch buildings are currently being used by the Yellowstone Association Institute for ecology classes.

58

Categorical Exclusion Determinations: Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

March 3, 2010 March 3, 2010 CX-006667: Categorical Exclusion Determination Restoration of 73-SX-10H CX(s) Applied: B6.1 Date: 03/07/2010 Location(s): Casper, Wyoming Office(s): RMOTC February 24, 2010 CX-006661: Categorical Exclusion Determination Repair Flowline at 83-AX-4 CX(s) Applied: B5.2, B5.4 Date: 02/24/2010 Location(s): Casper, Wyoming Office(s): RMOTC February 24, 2010 CX-006655: Categorical Exclusion Determination Coal Bed Methane Gas Separator CX(s) Applied: B3.7, B3.11 Date: 02/24/2010 Location(s): Casper, Wyoming Office(s): RMOTC February 24, 2010 CX-006651: Categorical Exclusion Determination Water Haul Permit Location CX(s) Applied: B1.3, B1.6 Date: 02/11/2010 Location(s): Casper, Wyoming Office(s): RMOTC February 13, 2010 CX-006734: Categorical Exclusion Determination

59

Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Aftermarket Conversions to someone by E-mail Aftermarket Conversions to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Aftermarket Conversions on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type

60

Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Alternative Fuel Dealer to someone by E-mail Alternative Fuel Dealer to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Alternative Fuel Dealer on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

EA-1581: Sand Hills Wind Project, Wyoming | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

81: Sand Hills Wind Project, Wyoming 81: Sand Hills Wind Project, Wyoming EA-1581: Sand Hills Wind Project, Wyoming Location of the proposed Sand Hills Wind Project, near Laramie, Wyoming Location of the proposed Sand Hills Wind Project, near Laramie, Wyoming Summary The Bureau of Land Management, with DOE's Western Area Power Administration as a cooperating agency, is preparing this EA to evaluate the environmental impacts of a proposal to construct, operate, and maintain the Sand Hills Wind Energy Facility on private and federal lands in Albany County, Wyoming. If the proposed action is implemented, Western would interconnect the proposed facility to an existing transmission line. Public Comment Opportunities No public comment opportunities available at this time. List of Available Documents

62

Wyoming's At-large congressional district: Energy Resources | Open Energy  

Open Energy Info (EERE)

Wyoming's At-large congressional district: Energy Resources Wyoming's At-large congressional district: Energy Resources Jump to: navigation, search Equivalent URI DBpedia This article is a stub. You can help OpenEI by expanding it. This page represents a congressional district in Wyoming. US Recovery Act Smart Grid Projects in Wyoming's At-large congressional district Cheyenne Light, Fuel and Power Company Smart Grid Project Powder River Energy Corporation Smart Grid Project Registered Energy Companies in Wyoming's At-large congressional district Blue Sky Batteries Inc Blue Sky Group Inc HTH Wind Energy Inc LappinTech LLC Nacel Energy Nanomaterials Discovery Corporation NDC Pathfinder Renewable Wind Energy PowerSHIFT Energy Company Inc TMA Global Wind Energy Systems TriLateral Energy LLC Utility Companies in Wyoming's At-large congressional district

63

LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Conducts Groundwater and Soil Investigation at Riverton, Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood October 16, 2012 - 10:50am Addthis LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood LM Conducts Groundwater and Soil Investigation at Riverton, Wyoming, in Response to 2010 Flood What does this project do? Goal 1. Protect human health and the environment A team representing two Federal agencies-U.S. Department of Energy (DOE) Office of Legacy Management and U.S. Geological Survey-is evaluating

64

Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Acquisition / Fuel Use to someone by E-mail Acquisition / Fuel Use to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Acquisition / Fuel Use on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type

65

Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling /  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Fueling / TSE Infrastructure Owner to someone by E-mail Fueling / TSE Infrastructure Owner to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Fueling / TSE Infrastructure Owner on

66

Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Fleet Purchaser/Manager to someone by E-mail Fleet Purchaser/Manager to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Fleet Purchaser/Manager on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type

67

Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Vehicle Owner/Driver to someone by E-mail Vehicle Owner/Driver to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Vehicle Owner/Driver on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type

68

Cheyenne, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.1399814°, -104.8202462° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.1399814,"lon":-104.8202462,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

69

Midwest, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Midwest, Wyoming: Energy Resources Midwest, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.4113604°, -106.2800242° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.4113604,"lon":-106.2800242,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

70

Hoback, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Hoback, Wyoming: Energy Resources Hoback, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.2818713°, -110.7838117° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.2818713,"lon":-110.7838117,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

71

Sundance, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Sundance, Wyoming: Energy Resources Sundance, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 44.4063746°, -104.3757816° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.4063746,"lon":-104.3757816,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

72

Meeteetse, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Meeteetse, Wyoming: Energy Resources Meeteetse, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 44.1571766°, -108.8715193° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.1571766,"lon":-108.8715193,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

73

Wyoming Natural Gas Consumption by End Use  

Gasoline and Diesel Fuel Update (EIA)

Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming Period: Monthly Annual Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area May-13 Jun-13 Jul-13 Aug-13 Sep-13 Oct-13 View History Volumes Delivered to Consumers

74

Wyoming Underground Natural Gas Storage - All Operators  

U.S. Energy Information Administration (EIA) Indexed Site

Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Rhode Island Tennessee Texas Utah Virginia Washington West Virginia Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Rhode Island Tennessee Texas Utah Virginia Washington West Virginia Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area Apr-13 May-13 Jun-13 Jul-13 Aug-13 Sep-13 View History Natural Gas in Storage 90,464 90,588 89,999 89,825 91,028 93,007 1990-2013

75

Frannie, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Frannie, Wyoming: Energy Resources Frannie, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 44.9691175°, -108.6215163° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.9691175,"lon":-108.6215163,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

76

Wyoming Natural Gas Consumption by End Use  

Gasoline and Diesel Fuel Update (EIA)

Gulf of Mexico Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming Period: Monthly Annual Gulf of Mexico Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2007 2008 2009 2010 2011 2012 View History Total Consumption

77

Hartrandt, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Hartrandt, Wyoming: Energy Resources Hartrandt, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8874654°, -106.3475273° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8874654,"lon":-106.3475273,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

78

Alcova, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Alcova, Wyoming: Energy Resources Alcova, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.5521842°, -106.7164296° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.5521842,"lon":-106.7164296,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

79

Casper, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Casper, Wyoming: Energy Resources Casper, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.866632°, -106.313081° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.866632,"lon":-106.313081,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

80

Wyoming Underground Natural Gas Storage - All Operators  

Gasoline and Diesel Fuel Update (EIA)

Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

Cheyenne, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Cheyenne, Wyoming: Energy Resources Cheyenne, Wyoming: Energy Resources (Redirected from Cheyenne, WY) Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.1399814°, -104.8202462° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.1399814,"lon":-104.8202462,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

82

Wyoming Wind Energy Center | Open Energy Information  

Open Energy Info (EERE)

Center Center Jump to: navigation, search Name Wyoming Wind Energy Center Facility Wyoming Wind Energy Center Sector Wind energy Facility Type Commercial Scale Wind Facility Status In Service Owner NextEra Energy Resources Developer Orion Energy Energy Purchaser PPM Energy Inc Location Evanston WY Coordinates 41.304414°, -110.793904° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.304414,"lon":-110.793904,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

83

Wyoming Underground Natural Gas Storage Capacity  

U.S. Energy Information Administration (EIA) Indexed Site

Alabama Arkansas California Colorado Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Tennessee Texas Utah Virginia Washington West Virginia Wyoming Period: Monthly Annual Alabama Arkansas California Colorado Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Tennessee Texas Utah Virginia Washington West Virginia Wyoming Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2007 2008 2009 2010 2011 2012 View History Total Storage Capacity 114,067 111,167 111,120 111,120 106,764 124,937 1988-2012

84

Wyoming Underground Natural Gas Storage Capacity  

U.S. Energy Information Administration (EIA) Indexed Site

Alaska Lower 48 States Alabama Arkansas California Colorado Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Tennessee Texas Utah Virginia Washington West Virginia Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Alaska Lower 48 States Alabama Arkansas California Colorado Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Tennessee Texas Utah Virginia Washington West Virginia Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area Apr-13 May-13 Jun-13 Jul-13 Aug-13 Sep-13 View

85

Evansville, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8599653°, -106.2683566° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8599653,"lon":-106.2683566,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

86

Brookhurst, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Brookhurst, Wyoming: Energy Resources Brookhurst, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8574654°, -106.2364105° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8574654,"lon":-106.2364105,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

87

SHEEP MOUNTAIN URANIUM PROJECT CROOKS GAP, WYOMING  

E-Print Network (OSTI)

;PROJECT OVERVIEW ·Site Location·Site Location ·Fremont , Wyoming ·Existing Uranium Mine Permit 381C·Existing Uranium Mine Permit 381C ·Historical Operation ·Western Nuclear Crooks Gap Project ·Mined 1956 ­ 1988 and Open Pit Mining ·Current Mine Permit (381C) ·Updating POO, Reclamation Plan & Bond ·Uranium Recovery

88

EA-1581: Sand Hills Wind Project, Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

The Bureau of Land Management, with DOEs Western Area Power Administration as a cooperating agency, is preparing this EA to evaluate the environmental impacts of a proposal to construct, operate, and maintain the Sand Hills Wind Energy Facility on private and federal lands in Albany County, Wyoming. If the proposed action is implemented, Western would interconnect the proposed facility to an existing transmission line.

89

COAL QUALITY AND GEOCHEMISTRY, POWDER RIVER BASIN, WYOMING AND MONTANA  

E-Print Network (OSTI)

in the Powder River Basin in Wyoming and Montana (fig. PQ-1) is considered to be "clean coal." For the location

90

,"Wyoming Natural Gas Price Sold to Electric Power Consumers...  

U.S. Energy Information Administration (EIA) Indexed Site

ame","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Price Sold to Electric Power Consumers (Dollars per Thousand Cubic...

91

Chapter 2 of the Wyoming Public Service Commission Regulations...  

Open Energy Info (EERE)

the Wyoming Public Service Commission Regulations: General Regulations Jump to: navigation, search OpenEI Reference LibraryAdd to library Legal Document- RegulationRegulation:...

92

Chapter 1 of the Wyoming Public Service Commission Regulations...  

Open Energy Info (EERE)

of the Wyoming Public Service Commission Regulations: Rules of Practice and Procedure Jump to: navigation, search OpenEI Reference LibraryAdd to library Legal Document-...

93

Chapter 9 of the Wyoming Public Service Commission Regulations...  

Open Energy Info (EERE)

Wyoming Public Service Commission Regulations: General Forms Jump to: navigation, search OpenEI Reference LibraryAdd to library Legal Document- RegulationRegulation: Chapter 9 of...

94

Wyoming Crude Oil + Lease Condensate Estimated Production from...  

U.S. Energy Information Administration (EIA) Indexed Site

Estimated Production from Reserves (Million Barrels) Wyoming Crude Oil + Lease Condensate Estimated Production from Reserves (Million Barrels) Decade Year-0 Year-1 Year-2 Year-3...

95

Wyoming Coalbed Methane Proved Reserves New Reservoir Discoveries...  

U.S. Energy Information Administration (EIA) Indexed Site

New Reservoir Discoveries in Old Fields (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves New Reservoir Discoveries in Old Fields (Billion Cubic Feet) Decade Year-0...

96

,"Wyoming Coalbed Methane Proved Reserves (Billion Cubic Feet...  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Coalbed Methane Proved Reserves (Billion Cubic Feet)",1,"Annual",2013 ,"Release...

97

Guide to Permitting Electric Transmission Lines in Wyoming |...  

Open Energy Info (EERE)

Permitting Electric Transmission Lines in Wyoming Jump to: navigation, search OpenEI Reference LibraryAdd to library PermittingRegulatory Guidance - GuideHandbook: Guide to...

98

Wyoming Oil and Gas Conservation Commission | Open Energy Information  

Open Energy Info (EERE)

Wyoming Oil and Gas Conservation Commission Wyoming Oil and Gas Conservation Commission Jump to: navigation, search State Wyoming Name Wyoming Oil and Gas Conservation Commission Address 2211 King Blvd City, State Casper, Wyoming Zip 82602 Website http://wogcc.state.wy.us/ Coordinates 42.8433001°, -106.3511243° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8433001,"lon":-106.3511243,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

99

Local Option - Energy Improvement Loan Program (Wyoming) | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Local Option - Energy Improvement Loan Program (Wyoming) Local Option - Energy Improvement Loan Program (Wyoming) Local Option - Energy Improvement Loan Program (Wyoming) < Back Savings Category Energy Sources Buying & Making Electricity Other Program Info Start Date 7/1/2011 State Wyoming Program Type PACE Financing '''''Note: The Federal Housing Financing Agency (FHFA) issued a [http://www.fhfa.gov/webfiles/15884/PACESTMT7610.pdf statement] in July 2010 concerning the senior lien status associated with most PACE programs.''''' Property-Assessed Clean Energy (PACE) financing effectively allows property owners to borrow money to pay for energy improvements. The amount borrowed is typically repaid via a special assessment on the property over a period of years. Wyoming has authorized local governments to establish such

100

Wyoming Carbon Capture and Storage Institute  

SciTech Connect

This report outlines the accomplishments of the Wyoming Carbon Capture and Storage (CCS) Technology Institute (WCTI), including creating a website and online course catalog, sponsoring technology transfer workshops, reaching out to interested parties via news briefs and engaging in marketing activities, i.e., advertising and participating in tradeshows. We conclude that the success of WCTI was hampered by the lack of a market. Because there were no supporting financial incentives to store carbon, the private sector had no reason to incur the extra expense of training their staff to implement carbon storage. ii

Nealon, Teresa

2014-06-30T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


101

Gravity interpretation of the northern Overthrust Belt, Idaho and Wyoming  

E-Print Network (OSTI)

sequence thickness westward from about 15 miles (2a. l km) east of the Idaho-Wyoming State line, to a site of maximum deposition somewhere in the west (Armstrong and Oriel, 1965). In western Wyoming, Drdovic-ian rocks are represented by the Upper... 1n southeastern Idaho by the Laketown Dolomite. The lim1ted geoqraph1c extent of the Silurian is considered to be the result of subsequent erosion rather than non-deposition (Armstrong and Oriel, 1965). In western Wyoming, the Devonian age rocks...

Silver, Wendy Ilene

1979-01-01T23:59:59.000Z

102

GEOTHERMAL RESOURCES AT NPR-3, WYOMING  

NLE Websites -- All DOE Office Websites (Extended Search)

RESOURCES AT NPR-3 Mark Milliken March 2006 The Naval Petroleum Reserves NPR-3 Teapot Dome NPR-3 LOCATION Salt Creek Anticline Trend NPR-3 WHY CONSIDER GEOTHERMAL ASSETS IN A STRIPPER OIL FIELD? RMOTC will partner with industry and academia to provide a test site for technologies that to reduce energy-related operational costs. * Energy efficiency * Energy conservation * Alternative energy sources KEY CHALLENGES * Acceptance by Industry * Creation of a Joint Industry Partnership (JIP) * Consensus on best technologies * Funding for infrastructure support * Funding of Projects Teapot Dome Wyoming Depositional Basin Settings NPR-3 STRATIGRAPHY 1000 2000 3000 4000 5000 6000 7000 DEPTH PRECAMBRIAN BASEMENT CAMBRIAN SS MISSISSIPPIAN MADSION LS PENNSYLVANIAN TENSLEEP PERMIAN GOOSE EGG TRIASSIC CHUGWATER

103

Overview of Energy Development Opportunities for Wyoming  

SciTech Connect

An important opportunity exists for the energy future of Wyoming that will Maintain its coal industry Add substantive value to its indigenous coal and natural gas resources Improve dramatically the environmental impact of its energy production capability Increase its Gross Domestic Product These can be achieved through development of a carbon conversion industry that transforms coal and natural gas to synthetic transportation fuels, chemical feedstocks, and chemicals that are the building blocks for the chemical industry. Over the longer term, environmentally clean nuclear energy can provide the substantial energy needs of a carbon conversion industry and be part of the mix of replacement technologies for the current fleet of aging coal-fired electric power generating stations.

Larry Demick

2012-11-01T23:59:59.000Z

104

Wyoming's Economic Future: Planning for Sustained Prosperity  

NLE Websites -- All DOE Office Websites (Extended Search)

Zunsheng Jiao Zunsheng Jiao Senior Geologist WSGS Future Work * Refine the geological framework required for 3-D rock fluid modeling of the Rock Springs Uplift (RSU). * Construct a 3-D numerical model of CO 2 injection into the RSU. * Build a Performance Assessment (PA) model that includes uncertainty and that can be utilized to construct a Probabilistic Risk Analysis (PRA) for CO 2 sequestration at the RSU. A SYSTEM MODEL FOR GEOLOGIC SEQUESTRATION OF CARBON DIOXIDE CO2_PENS, Los Alamos/Goldsim Rock Springs Uplift: an outstanding geological CO 2 sequestration site in southwestern Wyoming * Thick saline aquifer sequence overlain by thick sealing lithologies. * Doubly-plunging anticline characterized by more than 10,000 ft of closed structural relief. * Huge area (50 x 35 mile).

105

Town of Lusk, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Lusk, Wyoming (Utility Company) Lusk, Wyoming (Utility Company) Jump to: navigation, search Name Town of Lusk Place Wyoming Utility Id 11330 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes Activity Retail Marketing Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial- Single-Phase Commercial Commercial- Three-Phase Commercial Residential Residential Average Rates Residential: $0.0838/kWh Commercial: $0.0481/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a" Retrieved from "http://en.openei.org/w/index.php?title=Town_of_Lusk,_Wyoming_(Utility_Company)&oldid=411770

106

Wyoming/Wind Resources/Full Version | Open Energy Information  

Open Energy Info (EERE)

Wyoming/Wind Resources/Full Version Wyoming/Wind Resources/Full Version < Wyoming‎ | Wind Resources Jump to: navigation, search Print PDF Wyoming Wind Resources WyomingMap.jpg More information about these 30-m height wind resource maps is available on the Wind Powering America website. Introduction Can I use wind energy to power my home? This question is being asked across the country as more people look for a hedge against increasing electricity rates and a way to harvest their local wind resources. Small wind electric systems can make a significant contribution to our nation's energy needs. Although wind turbines large enough to provide a significant portion of the electricity needed by the average U.S. home generally require 1 acre of property or more, approximately 21 million U.S. homes are built on 1-acre

107

Wyoming Regions | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Wyoming Regions Wyoming Regions National Science Bowl® (NSB) NSB Home About High School Middle School Middle School Students Middle School Coaches Middle School Regionals Middle School Rules, Forms, and Resources Attending National Event Volunteers 2013 Competition Results News Media WDTS Home Contact Information National Science Bowl® U.S. Department of Energy SC-27/ Forrestal Building 1000 Independence Ave., SW Washington, DC 20585 P: 202-586-6702 E: National.Science.Bowl@science.doe.gov Middle School Regionals Wyoming Regions Print Text Size: A A A RSS Feeds FeedbackShare Page Wyoming Coaches can review the middle school regional locations listed below. Please note: Registrations are based on the location of your school. Please be sure to select the regional that is designated for your

108

Wyoming Regions | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Wyoming Regions Wyoming Regions National Science Bowl® (NSB) NSB Home About High School High School Students High School Coaches High School Regionals High School Rules, Forms, and Resources Middle School Attending National Event Volunteers 2013 Competition Results News Media WDTS Home Contact Information National Science Bowl® U.S. Department of Energy SC-27/ Forrestal Building 1000 Independence Ave., SW Washington, DC 20585 P: 202-586-6702 E: National.Science.Bowl@science.doe.gov High School Regionals Wyoming Regions Print Text Size: A A A RSS Feeds FeedbackShare Page Wyoming Coaches can review the high school regional locations listed below. Please note: Registrations are based on the location of your school. Please be sure to select the regional that is designated for your school's state, county, city, or district.

109

City of Pine Bluffs, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Bluffs, Wyoming (Utility Company) Bluffs, Wyoming (Utility Company) Jump to: navigation, search Name City of Pine Bluffs Place Wyoming Utility Id 15051 Utility Location Yes Ownership M NERC Location WECC Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png All Electrical Household Residential General Electrical Commercial Average Rates Residential: $0.1250/kWh Commercial: $0.1050/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a" Retrieved from "http://en.openei.org/w/index.php?title=City_of_Pine_Bluffs,_Wyoming_(Utility_Company)&oldid=410

110

National Park Service - Yellowstone National Park, Wyoming | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Yellowstone National Park, Wyoming Yellowstone National Park, Wyoming National Park Service - Yellowstone National Park, Wyoming October 7, 2013 - 10:15am Addthis Photo of Photovoltaic System at Lamar Buffalo Ranch in Yellowstone National Park Yellowstone National Park, Wyoming, has many historical sites within its boundaries. One of these is the Lamar Buffalo Ranch, a ranch that was set up in the early 1900s to breed buffalo for replacement stock within the park during a time when their numbers were very low. The ranch buildings are currently being used by the Yellowstone Association Institute for ecology classes. Since the ranch is located in the northeast corner of the park it is quite isolated from the commercial power grid, and power has been traditionally supplied by propane generators. The generators are now only a backup system

111

NorthWestern Energy LLC (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming) Wyoming) Jump to: navigation, search Name NorthWestern Energy LLC Place Wyoming Utility Id 12825 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png No rate schedules available. Average Rates No Rates Available The following table contains monthly sales and revenue data for NorthWestern Energy LLC (Wyoming). Month RES REV (THOUSAND $) RES SALES (MWH) RES CONS COM REV (THOUSAND $) COM SALES (MWH) COM CONS IND_REV (THOUSAND $) IND SALES (MWH) IND CONS OTH REV (THOUSAND $) OTH SALES (MWH) OTH CONS TOT REV (THOUSAND $) TOT SALES (MWH) TOT CONS 2009-01 19.46 199.099 171 106.025 923.771 168 125.485 1,122.87 339

112

City of Cody, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Cody, Wyoming (Utility Company) Cody, Wyoming (Utility Company) Jump to: navigation, search Name City of Cody Place Wyoming Utility Id 3881 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes ISO Other Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial Commercial Commercial Demand Commercial Optional Commercial Commercial Residential Residential Average Rates Residential: $0.1040/kWh Commercial: $0.0748/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a" Retrieved from "http://en.openei.org/w/index.php?title=City_of_Cody,_Wyoming_(Utility_Company)&oldid=409457

113

Wyoming Natural Gas Processed in Colorado (Million Cubic Feet...  

Annual Energy Outlook 2012 (EIA)

Colorado (Million Cubic Feet) Wyoming Natural Gas Processed in Colorado (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2010's...

114

Microsoft Word - Nuclear_hybrid_systems_for_Wyoming_-__final...  

NLE Websites -- All DOE Office Websites (Extended Search)

of primary energy resources in the forms of coal, natural gas, wind, uranium, and oil shale. Most of Wyoming's coal and gas resources are exported from the state in unprocessed...

115

Wyoming Natural Gas Pipeline and Distribution Use (Million Cubic...  

Annual Energy Outlook 2012 (EIA)

(Million Cubic Feet) Wyoming Natural Gas Pipeline and Distribution Use (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1990's...

116

Wyoming Dry Natural Gas Reserves Revision Decreases (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Decreases (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Revision Decreases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

117

Wyoming Dry Natural Gas Reserves Sales (Billion Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

Sales (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Sales (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,780...

118

Wyoming Natural Gas Liquids Proved Reserves (Million Barrels...  

Annual Energy Outlook 2012 (EIA)

Proved Reserves (Million Barrels) Wyoming Natural Gas Liquids Proved Reserves (Million Barrels) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's...

119

Wyoming Dry Natural Gas Reserves Revision Increases (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Increases (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Revision Increases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

120

Wyoming Dry Natural Gas Reserves Acquisitions (Billion Cubic...  

U.S. Energy Information Administration (EIA) Indexed Site

Acquisitions (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Acquisitions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


121

Wyoming Dry Natural Gas Reserves Extensions (Billion Cubic Feet...  

U.S. Energy Information Administration (EIA) Indexed Site

Extensions (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Extensions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's...

122

Wyoming Dry Natural Gas Reserves Adjustments (Billion Cubic Feet...  

Gasoline and Diesel Fuel Update (EIA)

Adjustments (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves Adjustments (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

123

Wyoming Dry Natural Gas Reserves New Field Discoveries (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

New Field Discoveries (Billion Cubic Feet) Wyoming Dry Natural Gas Reserves New Field Discoveries (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6...

124

Wyoming Coalbed Methane Proved Reserves Revision Decreases (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Decreases (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Revision Decreases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

125

Wyoming Coalbed Methane Proved Reserves Extensions (Billion Cubic...  

U.S. Energy Information Administration (EIA) Indexed Site

Extensions (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Extensions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

126

Wyoming Coalbed Methane Proved Reserves (Billion Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

(Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,540 2,297...

127

Wyoming Coalbed Methane Proved Reserves Revision Increases (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Increases (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Revision Increases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

128

Wyoming Coalbed Methane Proved Reserves Sales (Billion Cubic...  

U.S. Energy Information Administration (EIA) Indexed Site

Sales (Billion Cubic Feet) Wyoming Coalbed Methane Proved Reserves Sales (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's...

129

Wyoming Natural Gas Vehicle Fuel Price (Dollars per Thousand...  

Gasoline and Diesel Fuel Update (EIA)

Vehicle Fuel Price (Dollars per Thousand Cubic Feet) Wyoming Natural Gas Vehicle Fuel Price (Dollars per Thousand Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5...

130

Black Hills Power Inc (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming) Wyoming) Jump to: navigation, search Name Black Hills Power Inc Place Wyoming Utility Id 19545 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png No rate schedules available. Average Rates Residential: $0.0867/kWh Commercial: $0.0948/kWh Industrial: $0.0627/kWh The following table contains monthly sales and revenue data for Black Hills Power Inc (Wyoming). Month RES REV (THOUSAND $) RES SALES (MWH) RES CONS COM REV (THOUSAND $) COM SALES (MWH) COM CONS IND_REV (THOUSAND $) IND SALES (MWH) IND CONS OTH REV (THOUSAND $) OTH SALES (MWH) OTH CONS TOT REV (THOUSAND $) TOT SALES (MWH) TOT CONS

131

Low-Level Airflow in Southern Wyoming during Wintertime  

Science Journals Connector (OSTI)

A number of low-level flights were conducted with an instrumented aircraft to investigate wind characteristics in the planetary boundary layer over the low regions of the continental divide in southern Wyoming. The airflow upwind of the ...

John D. Marwitz; Paul J. Dawson

1984-06-01T23:59:59.000Z

132

XK-JPH-1l.l  

Office of Legacy Management (LM)

5% "y$ 5% "y$ XK-JPH-1l.l li/ Consisting of % pages containing 0 figures Copy No.&of 2 copies. Series A - September 9, IS43 , -- ' ! c 0 d ii?4 1 2 ' 2 2 4 4 ' 2 F! 9 2 4 :3 SP 2 z=o 4 kn 2 i 2 2 $$4 2 i?x 2 1: w 2: 4 To: J. Chipman !?DXl: JohnP.Howe . In Ret Visit to Grasselli Laboratories, Cleveland, Ohio, August 30, 1945 &is neeting va8 the uguLil done at the Grasselli Laboratories. flOT DIP - reported by 3. R Boll@r Double Ja&eting biweekly review of the coating work Tests on specimens hot dipped in 85-15 Zn-Al. afterward6 at the Aluminum Company were reported. The of the tests at the end of 25 dayst- 2s ** 9 b w* B, 3' ; g ' 5 Y .;;: s iz 0 -i 0 h /n s I - z .% I" 2 I (1) Double Jacketed Qugs Ninotecn were declared good at the etert ~15 atill good

133

Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Natural Gas to someone by E-mail Natural Gas to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Natural Gas on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Natural Gas The list below contains summaries of all Wyoming laws and incentives

134

Sodium-Copper Exchange on Wyoming Montmorillonite in Chloride, Perchlorate, Nitrate, and Sulfate Solutions  

E-Print Network (OSTI)

Sodium-Copper Exchange on Wyoming Montmorillonite in Chloride, Perchlorate, Nitrate, and Sulfate. The copper exchange capacity (CuEC) and Na-Cu exchange reactions on Wyoming montmo- rillonite were studied

Sparks, Donald L.

135

Wyoming Natural Gas Processed (Million Cubic Feet)  

Gasoline and Diesel Fuel Update (EIA)

Processed (Million Cubic Feet) Processed (Million Cubic Feet) Wyoming Natural Gas Processed (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1960's 261,478 259,227 269,921 1970's 276,926 292,434 298,439 303,519 263,684 215,104 251,846 262,801 255,760 1980's 366,530 393,027 432,313 579,479 624,619 506,241 512,579 560,603 591,472 1990's 635,922 681,266 728,113 750,853 821,689 895,129 845,253 863,052 870,518 902,889 2000's 993,702 988,595 1,083,860 1,101,425 1,249,309 1,278,087 1,288,124 1,399,570 1,278,439 1,507,142 2010's 1,642,190 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 1/7/2014

136

DOE-Sponsored Project Shows Huge Potential for Carbon Storage in Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

The Wyoming Rock Springs Uplift could potentially store 14 to 17 billion metric tons of carbon dioxide, according to results from a Department of Energy-sponsored study. This is equal to 250 to 300 years worth of CO2 emissions produced by the Wyomings coal-fired power plants and other large regional anthropogenic CO2 sources at current emission levels.

137

Town of Basin, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Wyoming (Utility Company) Wyoming (Utility Company) Jump to: navigation, search Name Town of Basin Place Wyoming Utility Id 1779 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial Commercial General Demand Service Industrial General Service Commercial Industrial Demand Service Industrial Noncommercial Service Commercial Nongeneral Demand Service Industrial Nongeneral Service Commercial Nonindustrial Demand Service Industrial Nonresidential Service Residential Residential Residential Security Lighting Service Lighting

138

City of Gillette, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Gillette, Wyoming (Utility Company) Gillette, Wyoming (Utility Company) Jump to: navigation, search Name Gillette City of Place Wyoming Utility Id 7222 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Operates Generating Plant Yes Activity Generation Yes Activity Transmission Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] Energy Information Administration Form 826[2] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial & Misc Service Commercial Demand Meter Industrial Residential Residential Residential All Electric Residential Average Rates Residential: $0.0894/kWh Commercial: $0.0692/kWh

139

Wyoming - Seds - U.S. Energy Information Administration (EIA)  

U.S. Energy Information Administration (EIA) Indexed Site

Wyoming - Seds - U.S. Energy Information Administration (EIA) Wyoming - Seds - U.S. Energy Information Administration (EIA) The page does not exist for . To view this page, please select a state: United States Alabama Alaska Arizona Arkansas California Colorado Connecticut Delaware District of Columbia Florida Georgia Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming The page does not exist for . To view this page, please select a state: Alabama Alaska Arizona Arkansas California Colorado Connecticut Delaware District of Columbia Florida

140

Town of Lingle, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Lingle, Wyoming (Utility Company) Lingle, Wyoming (Utility Company) Jump to: navigation, search Name Town of Lingle Place Wyoming Utility Id 11099 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Athletic Field Commercial Commercial Single Phase Commercial Commercial Single Phase B Commercial Commercial Three Phase Commercial Residential B Residential Residential Single Phase Residential Average Rates Residential: $0.1200/kWh Commercial: $0.1060/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a"

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


141

Solar and Wind Powering Wyoming Home | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Solar and Wind Powering Wyoming Home Solar and Wind Powering Wyoming Home Solar and Wind Powering Wyoming Home March 17, 2010 - 4:41pm Addthis Solar panels at Terry Sandstrom's home in Wheatland, Wyo. | Photo courtesy of Terry Sandstrom Solar panels at Terry Sandstrom's home in Wheatland, Wyo. | Photo courtesy of Terry Sandstrom Stephen Graff Former Writer & editor for Energy Empowers, EERE Terry Sandstrom never thought he would run his house entirely on renewable energy, but when faced with a $100,000 price tag to get connected to the grid, he had to look at alternative options. The man who spent his entire life in houses pulling energy from the grid now has 12 solar panels on his front lawn and a wind turbine in the backyard."I had no involvement in the renewable energy process until I got up here," says Terry, who moved from

142

Town of Guernsey, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Guernsey, Wyoming (Utility Company) Guernsey, Wyoming (Utility Company) Jump to: navigation, search Name Town of Guernsey Place Wyoming Utility Id 7759 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes Activity Bundled Services Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial - Billing Demand Equal to or Greater Than 25KW Commercial Commercial - Billing Demand Less Than 25KW Commercial Residential Residential Average Rates Residential: $0.0890/kWh Commercial: $0.1280/kWh Industrial: $0.0979/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a"

143

Solar and Wind Powering Wyoming Home | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Solar and Wind Powering Wyoming Home Solar and Wind Powering Wyoming Home Solar and Wind Powering Wyoming Home March 17, 2010 - 4:41pm Addthis Solar panels at Terry Sandstrom's home in Wheatland, Wyo. | Photo courtesy of Terry Sandstrom Solar panels at Terry Sandstrom's home in Wheatland, Wyo. | Photo courtesy of Terry Sandstrom Stephen Graff Former Writer & editor for Energy Empowers, EERE Terry Sandstrom never thought he would run his house entirely on renewable energy, but when faced with a $100,000 price tag to get connected to the grid, he had to look at alternative options. The man who spent his entire life in houses pulling energy from the grid now has 12 solar panels on his front lawn and a wind turbine in the backyard."I had no involvement in the renewable energy process until I got up here," says Terry, who moved from

144

Montana-Dakota Utilities Co (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming Wyoming Utility Id 12199 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png No rate schedules available. Average Rates Residential: $0.0890/kWh Commercial: $0.0630/kWh Industrial: $0.0711/kWh The following table contains monthly sales and revenue data for Montana-Dakota Utilities Co (Wyoming). Month RES REV (THOUSAND $) RES SALES (MWH) RES CONS COM REV (THOUSAND $) COM SALES (MWH) COM CONS IND_REV (THOUSAND $) IND SALES (MWH) IND CONS OTH REV (THOUSAND $) OTH SALES (MWH) OTH CONS TOT REV (THOUSAND $) TOT SALES (MWH) TOT CONS 2009-03 1,001 12,569 12,440 728 11,267 2,349 17 257 19 1,746 24,093 14,808

145

High West Energy, Inc (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Wyoming) Wyoming) Jump to: navigation, search Name High West Energy, Inc Place Wyoming Utility Id 27058 Utility Location Yes Ownership C NERC Location WECC NERC WECC Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1]Energy Information Administration Form 826[2] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png A F Industrial Commercial & Small Power Commercial Farm and Home Residential Irrigation Industrial Large Power Industrial Security Lighting-150 - 175 watt M V/ HPS Lighting Security Lighting-200 - 250 watt M V/ HPS Lighting Security Lighting-400 watt M V/ HPS Lighting Street Lighting-200 - 250 watt M V/ HPS Lighting

146

City of Torrington, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Torrington, Wyoming (Utility Company) Torrington, Wyoming (Utility Company) Jump to: navigation, search Name City of Torrington Place Wyoming Utility Id 19032 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png General Service Commercial General Service Demand Commercial General Service Heat Commercial Irrigation and Non-Potable Pumps Commercial Large Power Industrial Resident Electric Heat Rate (ALL Electric) Residential Residential Residential Street Lights Lighting Average Rates Residential: $0.0857/kWh Commercial: $0.1030/kWh

147

Town of Wheatland, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

Wyoming (Utility Company) Wyoming (Utility Company) Jump to: navigation, search Name Town of Wheatland Place Wyoming Utility Id 20512 Utility Location Yes Ownership M NERC Location WECC Activity Bundled Services Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png 175W Mercury Vapor Lighting 400W Mercury Vapor Lighting 700W Mercury Vapor Lighting Electric Home Heating Residential Energy Development Commercial General Service Time-of-Day- Single-Phase Commercial General Service Time-of-Day- Three-Phase Commercial General Service- Single-Phase Commercial General Service- Three-Phase Commercial

148

Utilizing geographic information systems technology in the Wyoming cumulative hydrologic impact assessment modeling process  

SciTech Connect

The coal-permitting process places heavy demands on both permit applicants and regulatory authorities with respect to the management and analysis of hydrologic data. Currently, this correlation is being addressed for the Powder River Basin, Wyoming by the ongoing Cumulative Hydrologic Impact Assessment (CHIA) efforts at the University of Wyoming. One critical component of the CHIA is the use of a Geographic Information System (GIS) for support, management, manipulation, pre-analysis, and display of data associated with the chosen groundwater and surface water models. This paper will discuss the methodology in using of GIS technology as an integrated tool with the MODFLOW and HEC-1 hydrologic models. Pre-existing GIS links associated with these two models served as a foundation for this effort. However, due to established standards and site specific factors, substantial modifications were performed on existing tools to obtain adequate results. The groundwater-modeling effort required the use of a refined grid in which cell sizes varied based on the relative locations of ongoing mining activities. Surface water modeling was performed in a semi-arid region with very limited topographic relief and predominantly ephemeral stream channels. These were substantial issues that presented challenges for effective GIS/model integration.

Hamerlinck, J.D.; Oakleaf, J.R. [Univ. of Wyoming, Laramie, WY (United States)

1997-12-31T23:59:59.000Z

149

SBOT WYOMING ROCKY MOUNTAIN OILFIELD CENTER POC Jenny Krom Telephone  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

WYOMING WYOMING ROCKY MOUNTAIN OILFIELD CENTER POC Jenny Krom Telephone (307) 233-4818 Email jenny.krom@rmotc.doe.gov ADMINISTATIVE / WASTE / REMEDIATION Office Administrative Services 561110 Facilities Support Services 561210 Security Guards and Patrol Services 561612 Security Systems Services (except Locksmiths) 561621 Locksmiths 561622 Exterminating and Pest Control Services 561710 Janitorial Services 561720 Solid Waste Collection 562111 Hazardous Waste Collection 562112 Other Waste Collection 562119 Hazardous Waste Treatment and Disposal 562211 Solid Waste Landfill 562212 Solid Waste Combustors and Incinerators 562213 Other Nonhazardous Waste Treatment and Disposal 562219 Remediation Services 562910 Materials Recovery Facilities 562920 All Other Miscellaneous Waste Management Services 562998

150

SAS Output  

U.S. Energy Information Administration (EIA) Indexed Site

Major U.S. Coal Mines, 2012" Major U.S. Coal Mines, 2012" "Rank","Mine Name / Company","Mine Type","State","Production (short tons)" 1,"North Antelope Rochelle Mine / Peabody Powder River Mining Ll","Surface","Wyoming",107639188 2,"Black Thunder / Thunder Basin Coal Company Llc","Surface","Wyoming",93082919 3,"Cordero Mine / Cordero Mining Llc","Surface","Wyoming",39204736 4,"Antelope Coal Mine / Antelope Coal Llc","Surface","Wyoming",34316314 5,"Belle Ayr Mine / Alpha Coal West, Inc.","Surface","Wyoming",24227846 6,"Eagle Butte Mine / Alpha Coal West, Inc.","Surface","Wyoming",22466733

151

Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Loans and Leases to someone by E-mail Loans and Leases to someone by E-mail Share Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on Facebook Tweet about Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on Twitter Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on Google Bookmark Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on Delicious Rank Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on Digg Find More places to share Alternative Fuels Data Center: Wyoming Laws and Incentives for Loans and Leases on AddThis.com... More in this section... Federal State Advanced Search All Laws & Incentives Sorted by Type Wyoming Laws and Incentives for Loans and Leases

152

California-Wyoming Grid Integration Study: Phase 1?Economic...  

NLE Websites -- All DOE Office Websites (Extended Search)

Replaced by Wyoming Wind Power (Share of 12,000 GWhyear) Technology CA33% CA35% Biogas 0.4% 0.2% Biomass 0.1% 1.1% Geothermal 29.8% 28.6% Large-Scale Solar PV 43.5% 43.1%...

153

COAL QUALITY AND GEOCHEMISTRY, GREATER GREEN RIVER BASIN, WYOMING  

E-Print Network (OSTI)

Chapter GQ COAL QUALITY AND GEOCHEMISTRY, GREATER GREEN RIVER BASIN, WYOMING By G.D. Stricker and M coal beds and zones in the Northern RockyMountains and Great Plains region, U.S. Geological Survey of selected Tertiary coal beds and zones in the Northern Rocky Mountains and Great Plains region, U

154

COAL QUALITY AND GEOCHEMISTRY, HANNA AND CARBON BASINS, WYOMING  

E-Print Network (OSTI)

Chapter HQ COAL QUALITY AND GEOCHEMISTRY, HANNA AND CARBON BASINS, WYOMING By G.D. Stricker and M coal beds and zones in the Northern RockyMountains and Great Plains region, U.S. Geological Survey of selected Tertiary coal beds and zones in the Northern Rocky Mountains and Great Plains region, U

155

www.ll.mit.edu MIT Lincoln Laboratory  

E-Print Network (OSTI)

of technical innovation in critical national security technology areas such as satellite communications, airwww.ll.mit.edu MIT Lincoln Laboratory Technology in Support of National Security LINCOLN LABORATORY MASSACHUSETTS INSTITUTE OF TECHNOLOGY Technology in Support of National Security #12;Lincoln Laboratory, located

Reuter, Martin

156

Wyoming Regional Science Bowl | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Wyoming Regions » Wyoming Regional Science Wyoming Regions » Wyoming Regional Science Bowl National Science Bowl® (NSB) NSB Home About High School High School Students High School Coaches High School Regionals High School Rules, Forms, and Resources Middle School Attending National Event Volunteers 2013 Competition Results News Media WDTS Home Contact Information National Science Bowl® U.S. Department of Energy SC-27/ Forrestal Building 1000 Independence Ave., SW Washington, DC 20585 P: 202-586-6702 E: National.Science.Bowl@science.doe.gov Wyoming Regions Wyoming Regional Science Bowl Print Text Size: A A A RSS Feeds FeedbackShare Page Regional Coordinator Information Name: Anne Theriault Email: anne@wyrsb.org Regional Event Information Date: February 8, 2014 Maximum Number of Teams: 16 Maximum Number of Teams per School: 3

157

Wyoming Regional Middle School Science Bowl | U.S. DOE Office of Science  

Office of Science (SC) Website

Wyoming Regions » Wyoming Regional Middle Wyoming Regions » Wyoming Regional Middle School Science Bowl National Science Bowl® (NSB) NSB Home About High School Middle School Middle School Students Middle School Coaches Middle School Regionals Middle School Rules, Forms, and Resources Attending National Event Volunteers 2013 Competition Results News Media WDTS Home Contact Information National Science Bowl® U.S. Department of Energy SC-27/ Forrestal Building 1000 Independence Ave., SW Washington, DC 20585 P: 202-586-6702 E: National.Science.Bowl@science.doe.gov Wyoming Regions Wyoming Regional Middle School Science Bowl Print Text Size: A A A RSS Feeds FeedbackShare Page Regional Coordinator Information Name: Anne Theriault Email: anneo.t@gmail.com Regional Event Information Date: Saturday, March 1, 2014 Maximum Number of Teams: 16

158

Economic Development from New Generation and Transmission in Wyoming and Colorado (Fact Sheet)  

SciTech Connect

This report analyzes the potential economic impacts in Colorado and Wyoming of a 225 MW natural gas fired electricity generation facility and a 900 MW wind farm constructed in Wyoming as well as a 180 mile, 345 kV transmission line that runs from Wyoming to Colorado. This report and analysis is not a forecast, but rather an estimate of economic activity associated with a hypothetical scenario.

Not Available

2013-03-01T23:59:59.000Z

159

Economic Development from New Generation and Transmission in Wyoming and Colorado  

SciTech Connect

This report analyzes the potential economic impacts in Colorado and Wyoming of a 225 MW natural gas fired electricity generation facility and a 900 MW wind farm constructed in Wyoming as well as a 180 mile, 345 kV transmission line that runs from Wyoming to Colorado. This report and analysis is not a forecast, but rather an estimate of economic activity associated with a hypothetical scenario.

Keyser, D.; Lantz, E.

2013-03-01T23:59:59.000Z

160

Weston County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Weston County, Wyoming: Energy Resources Weston County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.9270224°, -104.4723301° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.9270224,"lon":-104.4723301,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


161

NorthWestern Corporation (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Jump to: navigation, search Jump to: navigation, search Name NorthWestern Corporation Place Wyoming Utility Id 12825 References Energy Information Administration.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png No rate schedules available. Average Rates Residential: $0.0975/kWh Commercial: $0.1380/kWh The following table contains monthly sales and revenue data for NorthWestern Corporation (Wyoming). Month RES REV (THOUSAND $) RES SALES (MWH) RES CONS COM REV (THOUSAND $) COM SALES (MWH) COM CONS IND_REV (THOUSAND $) IND SALES (MWH) IND CONS OTH REV (THOUSAND $) OTH SALES (MWH) OTH CONS TOT REV (THOUSAND $) TOT SALES (MWH) TOT CONS 2009-03 14.42 146.703 173 99.874 849.906 170 114.294 996.609 343

162

Antelope Hills, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.0816341°, -106.3241933° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.0816341,"lon":-106.3241933,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

163

Rafter J Ranch, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Rafter J Ranch, Wyoming: Energy Resources Rafter J Ranch, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.426248°, -110.79844° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.426248,"lon":-110.79844,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

164

Hot Springs County, Wyoming: Energy Resources | Open Energy Information  

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County, Wyoming: Energy Resources County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.658734°, -108.326784° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.658734,"lon":-108.326784,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

165

Homa Hills, Wyoming: Energy Resources | Open Energy Information  

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Homa Hills, Wyoming: Energy Resources Homa Hills, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.9799661°, -106.3608619° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.9799661,"lon":-106.3608619,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

166

Uinta County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Uinta County, Wyoming: Energy Resources Uinta County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.2107397°, -110.6168921° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.2107397,"lon":-110.6168921,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

167

City of Powell, Wyoming (Utility Company) | Open Energy Information  

Open Energy Info (EERE)

City of Powell City of Powell Place Wyoming Utility Id 15294 Utility Location Yes Ownership M NERC Location WECC NERC WECC Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Commercial Rate Commercial Large Power Demand Service Industrial Residential Rate Residential Security Lighting (150W HPS) Lighting Average Rates Residential: $0.0986/kWh Commercial: $0.0956/kWh Industrial: $0.0692/kWh References ↑ "EIA Form EIA-861 Final Data File for 2010 - File1_a" Retrieved from "http://en.openei.org/w/index.php?title=City_of_Powell,_Wyoming_(Utility_Company)&oldid=410131

168

Vista West, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8599962°, -106.4346979° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8599962,"lon":-106.4346979,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

169

Red Butte, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Butte, Wyoming: Energy Resources Butte, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8060757°, -106.4341976° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8060757,"lon":-106.4341976,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

170

Sublette County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Sublette County, Wyoming: Energy Resources Sublette County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8138723°, -109.7591675° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8138723,"lon":-109.7591675,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

171

Powder River, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.0321863°, -106.9872785° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.0321863,"lon":-106.9872785,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

172

Laramie County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Laramie County, Wyoming: Energy Resources Laramie County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.4269559°, -104.8454619° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.4269559,"lon":-104.8454619,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

173

Converse County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Converse County, Wyoming: Energy Resources Converse County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.0489425°, -105.4068079° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.0489425,"lon":-105.4068079,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

174

Distributed Generation Study/Wyoming County Community Hospital | Open  

Open Energy Info (EERE)

Wyoming County Community Hospital Wyoming County Community Hospital < Distributed Generation Study Jump to: navigation, search Study Location Warsaw, New York Site Description Institutional-Hospital/Health Care Study Type Long-term Monitoring Technology Internal Combustion Engine Prime Mover Waukesha VGF L36GSID Heat Recovery Systems Built-in Fuel Natural Gas System Installer Gerster Trane System Enclosure Indoor System Application Combined Heat and Power Number of Prime Movers 1 Stand-alone Capability Seamless Power Rating 560 kW0.56 MW 560,000 W 560,000,000 mW 5.6e-4 GW 5.6e-7 TW Nominal Voltage (V) 480 Heat Recovery Rating (BTU/hr) 1000000 Cooling Capacity (Refrig/Tons) Origin of Controller 3rd Party Off-the-Shelf Component Integration Customer Assembled Start Date 2001/09/26

175

Airport Road, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Road, Wyoming: Energy Resources Road, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.9932901°, -107.9492606° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.9932901,"lon":-107.9492606,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

176

Bar Nunn, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.9135767°, -106.3433606° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.9135767,"lon":-106.3433606,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

177

Sweetwater County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

County, Wyoming: Energy Resources County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.8519395°, -109.1880047° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.8519395,"lon":-109.1880047,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

178

Washakie County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Washakie County, Wyoming: Energy Resources Washakie County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.8347829°, -107.7037626° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.8347829,"lon":-107.7037626,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

179

Natrona County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Natrona County, Wyoming: Energy Resources Natrona County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.8313837°, -106.912251° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8313837,"lon":-106.912251,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

180

Teton Village, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.587984°, -110.827989° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.587984,"lon":-110.827989,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
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181

South Park, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.4221501°, -110.793261° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.4221501,"lon":-110.793261,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

182

Goshen County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Goshen County, Wyoming: Energy Resources Goshen County, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.0334428°, -104.3791912° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.0334428,"lon":-104.3791912,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

183

Moose Wilson Road, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Road, Wyoming: Energy Resources Road, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.5252053°, -110.844655° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.5252053,"lon":-110.844655,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

184

Lower Valley Energy Inc (Wyoming) | Open Energy Information  

Open Energy Info (EERE)

Place Wyoming Place Wyoming Utility Id 11273 Utility Location Yes Ownership C NERC Location WECC NERC WECC Yes ISO Other Yes Operates Generating Plant Yes Activity Generation Yes Activity Transmission Yes Activity Buying Transmission Yes Activity Distribution Yes Activity Bundled Services Yes Alt Fuel Vehicle Yes Alt Fuel Vehicle2 Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1]Energy Information Administration Form 826[2] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png C-1 Small Commercial Commercial C-2 Large Power Service Commercial I-1 Small Irrigation Service Commercial I-2 Large Irrigation Service Commercial

185

Casper Mountain, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Mountain, Wyoming: Energy Resources Mountain, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.7330199°, -106.3266921° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.7330199,"lon":-106.3266921,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

186

Albany County, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wyoming: Energy Resources Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.638448°, -105.5943388° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":41.638448,"lon":-105.5943388,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

187

Bessemer Bend, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Bessemer Bend, Wyoming: Energy Resources Bessemer Bend, Wyoming: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 42.7580196°, -106.5203123° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.7580196,"lon":-106.5203123,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

188

SciTech Connect: Conversion of Low-Rank Wyoming Coals into Gasoline...  

Office of Scientific and Technical Information (OSTI)

Under the cooperative agreement program of DOE and funding from Wyoming State's Clean Coal Task Force, Western Research Institute and Thermosolv LLC studied the direct...

189

Higgs meeting 22 March 2006 Pauline Gagnon, Indiana University 1 Validation of invisible HZ ll  

E-Print Network (OSTI)

Higgs meeting ­ 22 March 2006 Pauline Gagnon, Indiana University 1 Validation of invisible HZ ll Plans for HZ ll News on other invisible Higgs activities #12;Higgs meeting ­ 22 March 2006 Pauline Gagnon, Indiana University 3 Z0H0 l+l- invisible initial analysis strategy (Fortran-based ATLFAST, ATL

Gagnon, Pauline

190

LS-ll D. Y. Smith and A. E. Williamsont  

NLE Websites -- All DOE Office Websites (Extended Search)

ll ll D. Y. Smith and A. E. Williamsont December 15, 1984 Optical Properties at X-ray Energies of Reflecting Elements for Synchrotron Radiation Sources* Summary Preliminary results are reported for the optical constants at x-ray wavelengths of elements commonly used for x-ray mirrors and multilayer reflectors. The data were derived from measured absorption spectra using a dispersion theory-sum rule analysis. Introduction The optical properties of materials in the x-ray range are of increasing interest in conjunction with the development of instrumentation for synchrotron radiation sources,l particularly for the design of mirrors 2 and mutlilayer 3 reflectors and filters. This letter is a preliminary report of a method for calculating these properties from presently available absorption

191

North Fork well, Shoshone National Forest, Park County, Wyoming  

SciTech Connect

A summary of the draft environmental impact statement for a proposed exploratory oil drilling operation in Shoshone National Forest in Wyoming describes the drilling equipment and support facilities required for the operation. Marathon Oil Company's purpose is to test the gas and oil potential of underlying geologic structures. Although Marathon plans a reclamation and revegetation program, there would be erosion during the operation. Noise from the drilling and helicopter activity would disrupt wildlife and vacationers in nearby Yellowstone Park. Confrontations with the grizzly bear population would increase. The legal mandate for the assessment was the Mineral Leasing Act of 1920.

Not Available

1984-01-01T23:59:59.000Z

192

Jobs and Economic Development from New Transmission and Generation in Wyoming (Fact Sheet), NREL (National Renewable Energy Laboratory)  

Wind Powering America (EERE)

from New Transmission and Generation in Wyoming Introduction Wyoming is a significant energy exporter, producing nearly 40% of the nation's coal and 10% of the nation's natural gas. However, opportunities to add new energy exports in the form of power generation are limited by insufficient transmission capacity. This fact sheet summarizes results from a recent analysis conducted by NREL for the Wyoming Infrastructure Authority (WIA) that estimates jobs and economic development activity that could occur in Wyoming should the market support new investments in power generation and transmission in the state. Modeling Inputs New infrastructure projects considered in this analysis would be developed for the purpose of exporting Wyoming wind and natural gas

193

Wyoming Dry Natural Gas Proved Reserves (Billion Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

Proved Reserves (Billion Cubic Feet) Proved Reserves (Billion Cubic Feet) Wyoming Dry Natural Gas Proved Reserves (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's 6,305 7,211 7,526 1980's 9,100 9,307 9,758 10,227 10,482 10,617 9,756 10,023 10,308 10,744 1990's 9,944 9,941 10,826 10,933 10,879 12,166 12,320 13,562 13,650 14,226 2000's 16,158 18,398 20,527 21,744 22,632 23,774 23,549 29,710 31,143 35,283 2010's 35,074 35,290 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 8/1/2013 Next Release Date: 8/1/2014 Referring Pages: Dry Natural Gas Proved Reserves as of Dec. 31 Wyoming Dry Natural Gas Proved Reserves

194

Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)  

Gasoline and Diesel Fuel Update (EIA)

Wellhead Price (Dollars per Thousand Cubic Feet) Wellhead Price (Dollars per Thousand Cubic Feet) Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1960's 0.15 0.15 0.15 1970's 0.15 0.15 0.16 0.18 0.25 0.34 0.41 0.64 0.79 1.13 1980's 1.92 2.77 3.22 3.18 3.32 3.01 2.52 1.76 1.53 1.24 1990's 1.16 1.06 1.13 1.99 2.05 1.78 2.57 2.42 1.78 1.97 2000's 3.34 3.49 2.70 4.13 4.96 6.86 5.85 4.65 6.86 3.40 2010's 4.30 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 1/7/2014 Next Release Date: 1/31/2014 Referring Pages: Natural Gas Wellhead Price Wyoming Natural Gas Prices

195

Wyoming Natural Gas Pipeline and Distribution Use Price (Dollars per  

U.S. Energy Information Administration (EIA) Indexed Site

Price (Dollars per Thousand Cubic Feet) Price (Dollars per Thousand Cubic Feet) Wyoming Natural Gas Pipeline and Distribution Use Price (Dollars per Thousand Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1960's 0.14 0.16 0.16 1970's 0.17 0.17 0.18 0.24 0.24 0.51 0.65 0.69 1.36 1.59 1980's 2.05 2.51 2.91 3.05 2.99 2.76 2.56 2.36 2.06 1.88 1990's 1.95 1.85 2.48 1.92 1.52 1.31 1.54 1.84 1.86 1.87 2000's 3.21 3.04 NA -- -- -- - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 12/12/2013 Next Release Date: 1/7/2014 Referring Pages: Price for Natural Gas Pipeline and Distribution Use Wyoming Natural Gas Prices Price for Natural Gas Pipeline and Distribution Use

196

Wyoming chemical flood test for oil recovery shows promise  

SciTech Connect

This project was begun in 1978 to provide data to promote surfactant chemical flooding on a commercial scale in the low-permeability reservoirs of eastern Wyoming and Colorado. The Big Muddy Field in Wyoming was selected because of the large resource, potential net pay, and high oil saturation. Injection began on February 20, 1980 with a surfactant flooding process. Water mixed with salt (brine) was injected as a preflush which was completed on January 20, 1981. This produced 12,122 bbl of oil. The next step involves injecting a surfactant, co-surfactant (alcohol), and polymer. When the injection of the surfactant is completed in the summer of 1982, polymer alone will be injected. Polymer injection will be completed sometime in 1984. The final phase will be a followup water drive scheduled for 1984-1987. As of February 1, 1982, 36,683 bbl of oil had been produced. About 88 bbl of oil per day is being produced, compared to only about 41 bbl per day in February 1981. (ATT)

Not Available

1981-01-01T23:59:59.000Z

197

Wyoming Natural Gas Plant Fuel Consumption (Million Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

Fuel Consumption (Million Cubic Feet) Fuel Consumption (Million Cubic Feet) Wyoming Natural Gas Plant Fuel Consumption (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1980's 12,572 16,185 17,090 13,633 16,249 17,446 19,820 1990's 12,182 14,154 13,217 13,051 13,939 14,896 15,409 15,597 16,524 19,272 2000's 20,602 20,991 25,767 28,829 24,053 24,408 23,868 25,276 23,574 25,282 2010's 27,104 28,582 29,157 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 12/12/2013 Next Release Date: 1/7/2014 Referring Pages: Natural Gas Plant Fuel Consumption Wyoming Natural Gas Consumption by End Use Plant Fuel Consumption of Natural Gas (Summary)

198

NEPAREVIEW LAN-ll-0003 2. CATEGORICAL EXCLUSION BEING APPLIED:  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

NEPAREVIEW NEPAREVIEW LAN-ll-0003 2. CATEGORICAL EXCLUSION BEING APPLIED: 10 CFR 1021, Appendix B 6.8: Minor operational changes at an existing facility to minimize waste generation and for reuse of materials. These changes include, but are not limited to, adding filtration and recycle piping to allow reuse of machining oil, setting up a sorting area to improve process efficiency, and segregating two waste streams previously mingled and assigning new identification codes to the two resulting wastes. REGULATORY REQUIREMENTS IN 10 CFR 1021.410 (B): 1. The proposed action fits within a class of actions that is listed in Appendix B to Subpart D. For classes of actions listed in Appendix B, the following conditions are integral elements (Le., to fit within a class), the proposal must not:

199

EERE PROJECT MANAGEMENT CENTER NFPADF~llNATION RECIPIENT:  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

.rn.ThIENT OF FNFRGY .rn.ThIENT OF FNFRGY EERE PROJECT MANAGEMENT CENTER NFPADF~llNATION RECIPIENT: lnlel1igent Energy Inc. Page 1 of2 STATE: CA PROJECT TITLE : Development and Demonstration of a New GenerationHigh Efficiency 1· 10kW Stationary Fuel Cell System Funding Opportunity AnnouDI::emenl Number Procurement Instrument Number NEPA Control Number em Number DE·PS36-06G096017 DE-FG36-07G017013 GFO-G017013'{)()2 G017013 Based on my review oftbe information concerning the proposed action, as NEPA Compliam::e Offku (autborized under DOE Order 4Sl.IA), I bave made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits). data analysis (including

200

Wyoming Associated-Dissolved Natural Gas, Wet After Lease Separation,  

Gasoline and Diesel Fuel Update (EIA)

Associated-Dissolved Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Associated-Dissolved Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Wyoming Associated-Dissolved Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's 1,038 1980's 1,374 1,228 1,060 959 867 710 691 691 616 581 1990's 573 572 624 502 611 879 824 850 794 713 2000's 652 488 561 450 362 384 347 365 223 362 2010's 334 318 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 8/1/2013 Next Release Date: 8/1/2014 Referring Pages: Associated-Dissolved Natural Gas Proved Reserves, Wet After Lease

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While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
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201

Gel conformance treatments increase oil production in Wyoming  

SciTech Connect

Chromic-carboxylate acrylamide-polymer gels have been applied successfully as conformance treatments in a number of fields in Wyoming's Big Horn basin. This paper reports that as a result of these treatments, significant amounts of incremental oil will be recovered in a profitable manner. The gels were applied to naturally fractured reservoirs of intermediate fracture intensity. The gel treatments improved sweep efficiency of oil-recovery drive fluids in fields that were under either primary production, waterflooding, or polymer-augmented waterflooding. Ultimate incremental oil production from the 29 gel treatments is projected to be 3.72 million st-tk bbl, or on average, 128,000 bbl/treatment. An average 13 bbl of incremental production are projected to be recovered for every 1 lb of polymer injected.

Sydansk, R.D.; Moore, P.E. (Marathon Oil Co., Littleton, CO (US))

1992-01-20T23:59:59.000Z

202

California-Wyoming Grid Integration Study: Phase 1 -- Economic Analysis  

SciTech Connect

This study presents a comparative analysis of two different renewable energy options for the California energy market between 2017 and 2020: 12,000 GWh per year from new California in-state renewable energy resources; and 12,000 GWh per year from Wyoming wind delivered to the California marketplace. Either option would add to the California resources already existing or under construction, theoretically providing the last measure of power needed to meet (or to slightly exceed) the state's 33% renewable portfolio standard. Both options have discretely measurable differences in transmission costs, capital costs (due to the enabling of different generation portfolios), capacity values, and production costs. The purpose of this study is to compare and contrast the two different options to provide additional insight for future planning.

Corbus, D.; Hurlbut, D.; Schwabe, P.; Ibanez, E.; Milligan, M.; Brinkman, G.; Paduru, A.; Diakov, V.; Hand, M.

2014-03-01T23:59:59.000Z

203

National uranium resource evaluation: Sheridan Quadrangle, Wyoming and Montana  

SciTech Connect

The Sheridan Quadrangle of north-central Wyoming was evaluated for uranium favorability according to specific criteria of the National Uranium Resource Evaluation program. Procedures consisted of geologic and radiometric surveys; rock, water, and sediment sampling; studying well logs; and reviewing the literature. Five favorable environments were identified. These include portions of Eocene Wasatch and Upper Cretaceous Lance sandstones of the Powder River Basin and Lower Cretaceous Pryor sandstones of the Bighorn Basin. Unfavorable environments include all Precambrian, Cambrian, Ordovician, Permian, Triassic, and Middle Jurassic rocks; the Cretaceous Thermopolis, Mowry, Cody, Meeteetse, and Bearpaw Formations; the Upper Jurassic Sundance and Morrison, the Cretaceous Frontier, Meseverde, Lance, and the Paleocene Fort Union and Eocene Willwood Formations of the Bighorn Basin; the Wasatch Formation of the Powder River Basin, excluding two favorable areas and all Oligocene and Miocene rocks. Remaining rocks are unevaluated.

Damp, J N; Jennings, M D

1982-04-01T23:59:59.000Z

204

DOE-Sponsored Technology Enhances Recovery of Natural Gas in Wyoming |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Sponsored Technology Enhances Recovery of Natural Gas in Sponsored Technology Enhances Recovery of Natural Gas in Wyoming DOE-Sponsored Technology Enhances Recovery of Natural Gas in Wyoming March 26, 2009 - 1:00pm Addthis Washington, DC --Research sponsored by the U.S. Department of Energy (DOE) Oil and Natural Gas Program has found a way to distinguish between groundwater and the water co-produced with coalbed natural gas, thereby boosting opportunities to tap into the vast supply of natural gas in Wyoming as well as Montana. In a recently completed project, researchers at the University of Wyoming used the isotopic carbon-13 to carbon-12 ratio to address environmental issues associated with water co-produced with coalbed natural gas. The research resulted in a patent application for this unique use of the ratio.

205

DOE-Sponsored Technology Enhances Recovery of Natural Gas in Wyoming |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Technology Enhances Recovery of Natural Gas in Technology Enhances Recovery of Natural Gas in Wyoming DOE-Sponsored Technology Enhances Recovery of Natural Gas in Wyoming March 26, 2009 - 1:00pm Addthis Washington, DC --Research sponsored by the U.S. Department of Energy (DOE) Oil and Natural Gas Program has found a way to distinguish between groundwater and the water co-produced with coalbed natural gas, thereby boosting opportunities to tap into the vast supply of natural gas in Wyoming as well as Montana. In a recently completed project, researchers at the University of Wyoming used the isotopic carbon-13 to carbon-12 ratio to address environmental issues associated with water co-produced with coalbed natural gas. The research resulted in a patent application for this unique use of the ratio. An added benefit of the project, which was managed by the National Energy

206

Wyoming Energy and Cost Savings for New Single- and Multifamily Homes  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming Energy and Cost Savings for New Single- and Multifamily Homes: 2009 and 2012 IECC as Compared to the 2006 IECC BUILDING TECHNOLOGIES PROGRAM 2 2009 AND 2012 IECC AS COMPARED TO THE 2006 IECC The 2009 and 2012 International Energy Conservation Codes (IECC) yield positive benefits for Wyoming homeowners. Moving to either the 2009 or 2012 IECC from the 2006 IECC is cost-effective over a 30-year life cycle. On average, Wyoming homeowners will save $1,809 over 30 years under the 2009 IECC, with savings still higher at $6,441 under the 2012 IECC. After accounting for up-front costs and additional costs financed in the mortgage, homeowners should see net positive cash flows (i.e., cumulative savings exceeding cumulative cash outlays) in 2 years for the 2009 and 2 years with the 2012 IECC. Average

207

EA-1008: Continued Development of Naval Petroleum Reserve No. 3 (Sitewide), Natrona County, Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

This EA evaluates the environmental impacts of the proposal to continue development of the U.S. Department of Energy's Naval Petroleum Reserve No. 3 located in Natrona County, Wyoming over the next...

208

Weatherization: Wyoming's Hidden Resource; Weatherization Assistance Close-Up Fact Sheet  

SciTech Connect

Wyoming demonstrates its commitment to technology and efficiency through the Weatherization Program. Weatherization uses advanced technologies and techniques to reduce energy costs for low-income families by increasing the energy efficiency of their homes.

D& R International

2001-10-10T23:59:59.000Z

209

Economic Development from Gigawatt-Scale Wind Deployment in Wyoming (Presentation)  

SciTech Connect

This presentation provides an overview of economic development in Wyoming from gigawatt-scale wind development and includes a discussion of project context, definitions and caveats, a deployment scenario, modeling inputs, results, and conclusions.

Lantz, E.

2011-05-23T23:59:59.000Z

210

Tidal Deposits of the Campanian Western Interior Seaway, Wyoming, Utah and Colorado, USA  

Science Journals Connector (OSTI)

The large-scale effects of tidal waves entering the Cretaceous Western Interior Seaway from the Gulf of Mexico ... southwestern margin of the seaway, in Utah, Colorado and Wyoming are documented. Tidal currents d...

Ronald J. Steel; Piret Plink-Bjorklund

2012-01-01T23:59:59.000Z

211

Wyoming Natural Gas Number of Gas and Gas Condensate Wells (Number...  

U.S. Energy Information Administration (EIA) Indexed Site

Gas and Gas Condensate Wells (Number of Elements) Wyoming Natural Gas Number of Gas and Gas Condensate Wells (Number of Elements) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5...

212

Wyoming State Briefing Book for low-level radioactive waste management  

SciTech Connect

The Wyoming State Briefing Book is one of a series of state briefing books on low-level radioactive waste management practices. It has been prepared to assist state and federal agency officials in planning for safe low-level radioactive waste disposal. The report contains a profile of low-level radioactive waste generators in Wyoming. The profile is the result of a survey of NRC licensees in Wyoming. The briefing book also contains a comprehensive assessment of low-level radioactive waste management issues and concerns as defined by all major interested parties including industry, government, the media, and interest groups. The assessment was developed through personal communications with representatives of interested parties, and through a review of media sources. Lastly, the briefing book provides demographic and socioeconomic data and a discussion of relevant government agencies and activities, all of which may impact waste management practices in Wyoming.

Not Available

1981-10-01T23:59:59.000Z

213

Hydrocarbon trapping mechanisms in the Miller Creek area of the Powder River Basin, Wyoming  

E-Print Network (OSTI)

'' 1975 43'W'79 ABSTRACT Hydrocarbon Trapoing Mechanisms in the Miller Creek Area of the Powder River Basin, Wyoming. (May 1975) Jennifer Ann Armstrong, B. S. , University of Texas at Austin Chairman of Advisory Committee: 17r. Robert. R. Berg...

Armstrong, Jennifer Ann

1975-01-01T23:59:59.000Z

214

EA-1219: Hoe Creek Underground Coal Gasification Test Site Remediation, Campbell County, Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

This EA evaluates the environmental impacts for the proposed Hoe Creek Underground Coal Gasification Test Site Remediation that would be performed at the Hoe Creek site in Campbell County, Wyoming.

215

Jobs and Economic Development from New Transmission and Generation in Wyoming  

SciTech Connect

This report is intended to inform policymakers, local government officials, and Wyoming residents about the jobs and economic development activity that could occur should new infrastructure investments in Wyoming move forward. The report and analysis presented is not a projection or a forecast of what will happen. Instead, the report uses a hypothetical deployment scenario and economic modeling tools to estimate the jobs and economic activity likely associated with these projects if or when they are built.

Lantz, E.; Tegen, S.

2011-03-01T23:59:59.000Z

216

Environmental Survey preliminary report, Naval Petroleum and Oil Shale Reserves in Colorado, Utah, and Wyoming, Casper, Wyoming  

SciTech Connect

This report presents the preliminary environmental findings from the first phase of the Environmental Survey of the United States Department of Energy (DOE) Naval Petroleum and Oil Shale Reserves in Colorado, Utah, and Wyoming (NPOSR-CUW) conducted June 6 through 17, 1988. NPOSR consists of the Naval Petroleum Reserve No. 3 (NPR-3) in Wyoming, the Naval Oil Shale Reserves No. 1 and 3 (NOSR-1 and NOSR-3) in Colorado and the Naval Oil Shale Reserve No. 2 (NOSR-2) in Utah. NOSR-2 was not included in the Survey because it had not been actively exploited at the time of the on-site Survey. The Survey is being conducted by an interdisciplinary team of environmental specialists, lead and managed by the Office of Environment, Safety and Health's Office of Environmental Audit. Individual team specialists are outside experts being supplied by a private contractor. The objective of the Survey is to identify environmental problems and areas of environmental risk associated with NPOSR. The Survey covers all environmental media and all areas of environmental regulation. It is being performed in accordance with the DOE Environmental Survey Manual. This phase of the Survey involves the review of existing site environmental data, observations of the operations carried on at NPOSR and interviews with site personnel. The Survey team has developed a Sampling and Analysis Plan to assist in further assessing specific environmental problems identified at NOSR-3 during the on-site Survey. There were no findings associated with either NPR-3 or NOSR-1 that required Survey-related sampling and Analysis. The Sampling and Analysis Plan will be executed by Idaho National Engineering Laboratory. When completed, the results will be incorporated into the Environmental Survey Summary report. The Summary Report will reflect the final determinations of the NPOSR-CUW Survey and the other DOE site-specific Surveys. 110 refs., 38 figs., 24 tabs.

Not Available

1989-02-01T23:59:59.000Z

217

Terrorism, rugby, and hospitality: She?ll be right  

Science Journals Connector (OSTI)

Abstract In 2011, international attention was focused on New Zealand, host of the Rugby World Cup (RWC 2011), which brought 133,200 visitors to New Zealand over a three-month period. This exploratory study, undertaken before the event, investigates the attitudes of hotel managers and staff as they prepared to host spectators, rugby teams, and media personnel. The aim of the study was to determine preparedness for an attack, and assess attitudes and approaches to risk management in relation to terrorism. Interview data collected from senior hospitality managers revealed a distinctly laissez faire approach to security, which is partly explained by Hofstede?s (1984) low uncertainty avoidance category for New Zealand. This attitude is reputedly common in New Zealand, where it is proudly expressed as "she?ll be right". It is hoped that this study will bring attention to the weak security measures in New Zealand, which would have been insufficient protection for life and property, had a serious terrorist attack been planned.

Cyril Peter; Jill Poulston; Erwin Losekoot

2014-01-01T23:59:59.000Z

218

Wyoming Natural Gas, Wet After Lease Separation Proved Reserves (Billion  

Gasoline and Diesel Fuel Update (EIA)

Gas, Wet After Lease Separation Proved Reserves (Billion Cubic Feet) Gas, Wet After Lease Separation Proved Reserves (Billion Cubic Feet) Wyoming Natural Gas, Wet After Lease Separation Proved Reserves (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's 7,834 1980's 9,413 9,659 10,155 10,728 11,014 11,229 10,393 10,572 10,903 11,276 1990's 10,433 10,433 11,305 11,387 11,351 12,712 13,084 14,321 14,371 14,809 2000's 17,211 19,399 21,531 22,716 23,640 24,722 24,463 30,896 32,399 36,748 2010's 36,526 36,930 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 8/1/2013 Next Release Date: 8/1/2014 Referring Pages: Natural Gas Proved Reserves, Wet After Lease Separation, as of Dec.

219

Wyoming Nonassociated Natural Gas, Wet After Lease Separation, Proved  

Gasoline and Diesel Fuel Update (EIA)

Nonassociated Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Nonassociated Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Wyoming Nonassociated Natural Gas, Wet After Lease Separation, Proved Reserves (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's 6,796 1980's 8,039 8,431 9,095 9,769 10,147 10,519 9,702 9,881 10,287 10,695 1990's 9,860 9,861 10,681 10,885 10,740 11,833 12,260 13,471 13,577 14,096 2000's 16,559 18,911 20,970 22,266 23,278 24,338 24,116 30,531 32,176 36,386 2010's 36,192 36,612 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 8/1/2013 Next Release Date: 8/1/2014 Referring Pages:

220

Wyoming Quantity of Production Associated with Reported Wellhead Value  

Gasoline and Diesel Fuel Update (EIA)

Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Wyoming Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1980's 395,656 447,615 416,565 352,858 407,863 471,095 623,915 1990's 690,356 711,799 765,254 63,667 14,283 12,449 27,821 719,933 1,004,020 1,079,375 2000's 1,240,038 1,359,868 1,533,724 1,561,322 1,724,725 1,729,760 1,811,992 1,916,238 2,116,818 2,239,778 2010's 2,318,486 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 12/12/2013 Next Release Date: 1/7/2014 Referring Pages:

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

Wyoming Natural Gas in Underground Storage (Working Gas) (Million Cubic  

U.S. Energy Information Administration (EIA) Indexed Site

Working Gas) (Million Cubic Feet) Working Gas) (Million Cubic Feet) Wyoming Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 53,604 51,563 52,120 53,225 54,581 56,980 58,990 61,428 62,487 60,867 1991 54,085 53,423 53,465 53,581 54,205 56,193 58,416 60,163 61,280 61,366 59,373 57,246 1992 30,371 28,356 27,542 27,461 27,843 28,422 29,588 29,692 30,555 29,505 27,746 23,929 1993 20,529 18,137 17,769 18,265 19,253 21,322 23,372 24,929 26,122 27,044 24,271 21,990 1994 21,363 18,661 19,224 20,115 21,689 22,447 23,568 25,072 26,511 27,440 26,978 25,065 1995 22,086 20,762 19,352 18,577 19,027 20,563 22,264 23,937 25,846 27,025 26,298 24,257

222

Thermal analysis of the southern Powder River Basin, Wyoming  

SciTech Connect

Temperature and geologic data from over 3,000 oil and gas wells within a 180 km x 30 km area that transect across the southern Powder River Basin in Wyoming, U.S.A., were used to determine the present thermal regime of the basin. Three-dimensional temperature fields within the transect, based on corrected bottom-hole temperatures (BHTs) and other geologic information, were assessed using: (1) A laterally constant temperature gradient model in conjunction with an L{sub 1} norm inversion method, and (2) a laterally variable temperature gradient model in conjunction with a stochastic inversion technique. The mean geothermal gradient in the transect is 29 C/km, but important lateral variations in the geothermal gradient exist. The average heat flow for the southern Powder River Basin is 52 mW/m{sup 2} with systematic variations between 40 mW/m{sup 2} and 60 mW/m{sup 2} along the transect. Extremely high local heat flow (values up to 225 mW/m{sup 2}) in the vicinity of the Teapot Dome and the Salt Creek Anticline and low heat flow of 25 mW/m{sup 2} occurring locally near the northeast end of the transect are likely caused by groundwater movement.

McPherson, B.J.O.L.; Chapman, D.S. [Univ. of Utah, Salt Lake City, UT (United States). Dept. of Geology and Geophysics] [Univ. of Utah, Salt Lake City, UT (United States). Dept. of Geology and Geophysics

1996-11-01T23:59:59.000Z

223

DOE Preparing for Sale of Unique RMOTC Property and Equipment in Wyoming |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Preparing for Sale of Unique RMOTC Property and Equipment in Preparing for Sale of Unique RMOTC Property and Equipment in Wyoming DOE Preparing for Sale of Unique RMOTC Property and Equipment in Wyoming October 24, 2013 - 8:59am Addthis DOE Preparing for Sale of Unique RMOTC Property and Equipment in Wyoming Did you know? RMOTC's mission is to ensure America's energy security and prosperity by assisting its partners in developing and commercializing energy efficient and environmentally friendly technologies to address critical global energy challenges. NPR-3, the site of RMOTC, is the only remaining Naval Petroleum Reserve administered by DOE and the government's only operating oilfield. The government's sale of NPR-3 by the end of 2014 will include the sale of all RMOTC-owned equipment and materials. In the eastern Rocky Mountains about 40 miles north of Casper, Wyo., is a

224

Data from selected Almond Formation outcrops -- Sweetwater County, Wyoming  

SciTech Connect

The objectives of this research program are to: (1) determine the reservoir characteristics and production problems of shoreline barrier reservoirs; and (2) develop methods and methodologies to effectively characterize shoreline barrier reservoirs to predict flow patterns of injected and produced fluids. Two reservoirs were selected for detailed reservoir characterization studies -- Bell Creek field, Carter County, Montana, that produces from the Lower Cretaceous (Albian-Cenomanian) Muddy Formation, and Patrick Draw field, Sweetwater County, Wyoming that produces from the Upper Cretaceous (Campanian) Almond Formation of the Mesaverde Group. An important component of the research project was to use information from outcrop exposures of the producing formations to study the spatial variations of reservoir properties and the degree to which outcrop information can be used in the construction of reservoir models. A report similar to this one presents the Muddy Formation outcrop data and analyses performed in the course of this study (Rawn-Schatzinger, 1993). Two outcrop localities, RG and RH, previously described by Roehler (1988) provided good exposures of the Upper Almond shoreline barrier facies and were studied during 1990--1991. Core from core well No. 2 drilled approximately 0.3 miles downdip of outcrop RG was obtained for study. The results of the core study will be reported in a separate volume. Outcrops RH and RG, located about 2 miles apart were selected for detailed description and drilling of core plugs. One 257-ft-thick section was measured at outcrop RG, and three sections {approximately}145 ft thick located 490 and 655 feet apart were measured at the outcrop RH. Cross-sections of these described profiles were constructed to determine lateral facies continuity and changes. This report contains the data and analyses from the studied outcrops.

Jackson, S.R.; Rawn-Schatzinger, V.

1993-12-01T23:59:59.000Z

225

Diagenesis of upper Cretaceous Teapot sandstones, Powder River basin, Wyoming  

SciTech Connect

The Upper Cretaceous Teapot sandstones of Well Draw field, Converse County, Wyoming, are turbidite fan deposits bounded stratigraphically by marine shales. They presently occur from 6360 to 7200 ft (1920 to 2195 m), dipping to the northwest. Cored samples selected from nonbioturbated A bedsets show that the sandstones are fine to very fine-grained feldspathic litharenites. Major authigenic minerals include carbonate cement, quartz overgrowths, and clay minerals. The clay minerals originated either as alteration rims on detrital silicates or as precipitated from pore fluids. Alteration rims typically consist of illite, smectite, mixed layer illite/smectite, and lesser chlorite. Feldspars are altered to kaolinite. Precipitated clays occur as thin, unoriented, grain coating chlorite and kaolinite; pore lining mixed layer illite/smectite and lesser chlorite oriented with (001) normal to the pore wall; and unoriented, poorly crystalline, pore filling chlorite. The diagenetic sequence is: compaction and limited quartz overgrowth development; complete calcite cementation and precipitation of grain-coating clays; dissolution of carbonate cement; precipitation of pore lining and later pore filling clays; and development of second stage quartz overgrowths. Development of silicate alteration rims occurred throughout the diagenetic history. Dissolution of carbonate cement produced the majority of present-day porosity; however, this secondary porosity was reduced by precipitation of clays minerals. In the downdip sandstones, hydrodynamic flow and an increase in the abundance of detrital labile grains have caused an increased abundance of clay mineral precipitates, reducing the reservoir potential. The pore fluids which controlled sandstones diagenesis were likely provided by dewatering and diagenesis of enclosing shales.

Conner, S.P.; Tieh, T.T.

1984-04-01T23:59:59.000Z

226

The 2012 Drought in Colorado, Utah and Wyoming A July 2012 update from the  

E-Print Network (OSTI)

The 2012 Drought in Colorado, Utah and Wyoming A July 2012 update from the Western Water Assessment, included many of the key mountain headwaters in western and northern Colorado, and in Utah. But as dry.gov/psd/data/usclimdivs/) Spring and Early SummerTemperatures 2012 2002 #12;Contacts: Jeff Lukas, Western Water Assessment (Lukas@Colorado

Neff, Jason

227

EIS-0267: BPA/Lower Valley Transmission System Reinforcement Project, Wyoming  

Energy.gov (U.S. Department of Energy (DOE))

This EIS analyzes BPA and LVPL proposal to construct a new 115-kV line from BPAs Swan Valley Substation near Swan Valley in Bonneville County, Idaho about 58 km (36 miles) east to BPAs Teton Substation near Jackson in Teton County, Wyoming.

228

FORT UNION COAL IN THE POWDER RIVER BASIN, WYOMING AND MONTANA: A SYNTHESIS  

E-Print Network (OSTI)

...................................................................................PS-18 Coal-Bed Methane ResourceChapter PS FORT UNION COAL IN THE POWDER RIVER BASIN, WYOMING AND MONTANA: A SYNTHESIS By R of selected Tertiary coal beds and zones in the Northern RockyMountains and Great Plains region, U

229

Conversion of Low-Rank Wyoming Coals into Gasoline by Direct Liquefaction  

SciTech Connect

Under the cooperative agreement program of DOE and funding from Wyoming States Clean Coal Task Force, Western Research Institute and Thermosolv LLC studied the direct conversion of Wyoming coals and coal-lignin mixed feeds into liquid fuels in conditions highly relevant to practice. During the Phase I, catalytic direct liquefaction of sub-bituminous Wyoming coals was investigated. The process conditions and catalysts were identified that lead to a significant increase of desirable oil fraction in the products. The Phase II work focused on systematic study of solvothermal depolymerization (STD) and direct liquefaction (DCL) of carbonaceous feedstocks. The effect of the reaction conditions (the nature of solvent, solvent/lignin ratio, temperature, pressure, heating rate, and residence time) on STD was investigated. The effect of a number of various additives (including lignin, model lignin compounds, lignin-derivable chemicals, and inorganic radical initiators), solvents, and catalysts on DCL has been studied. Although a significant progress has been achieved in developing solvothermal depolymerization, the side reactions formation of considerable amounts of char and gaseous products as well as other drawbacks do not render aqueous media as the most appropriate choice for commercial implementation of STD for processing coals and lignins. The trends and effects discovered in DCL point at the specific features of liquefaction mechanism that are currently underutilized yet could be exploited to intensify the process. A judicious choice of catalysts, solvents, and additives might enable practical and economically efficient direct conversion of Wyoming coals into liquid fuels.

Polyakov, Oleg

2013-12-31T23:59:59.000Z

230

Teapot Dome: Characterization of a CO2-enhanced oil recovery and storage site in Eastern Wyoming  

Science Journals Connector (OSTI)

...storage, and underground coal gasification. Vicki Stamp has more than...unparalleled opportunity for industry and others to use the site...projects are intimately linked to industry-driven enhanced oil recovery...three-dimensional models United States waste disposal Wyoming GeoRef...

S. Julio Friedmann; Vicki W. Stamp

231

Genetic sequences and unconformities in shallow marine to fluvial depositional systems, Mesaverde Group, north-central Wyoming  

SciTech Connect

Continuous exposures of the Mesaverde Group (Campanian) in the Bighorn basin area, Wyoming, were utilized to establish regional facies architecture and to test sequence stratigraphic concepts along and perpendicular to the general trend of the shoreline of the Western Interior Cretaceous Seaway. Sections along the west flank of the basin begin with stacked seaward stepping, wave dominated beach sandstones that are fed by widely spaced river systems. These sandstones grade eastward into storm influenced intercalated shale/sandstone beds of the lower shoreface-shelf transitional zone. Bioturbated lower and upper shoreface deposits are often truncated by a laterally continuous erosion surface and overlain by coastal swamp and channel deposits, suggesting a regional regressive unconformity. The overlying fluvial units exhibit a distinct transition in architecture from single and multistoried, lens-shaped, avulsion-controlled, low sinuosity channel bodies to single-storied sheets of high sinuosity channels that consist exclusively of gently dipping, heterolithic lateral accretion units. The uppermost depositional sequence of the Mesaverde is the Teapot Sandstone, a conspicuous multistoried sheet sandstone that consists of laterally amalgamated, vertically stacked low to high sinuosity channels. Floodplain sediments are only represented by shale rip-up clasts in channel lags. Laterally persistent ferricrete horizons, containing plant impressions, are time significant surfaces within the Teapot and indicate a rhythmic pattern of sedimentation, nondeposition, and pedogenesis. The base of the Teapot unconformably overlies weathered lower shoreface sandstone along the east flank of the Bighorn basin and thus represents a regional sequence boundary.

Klug, B.; Wurster, P. (Univ. Bonn (West Germany)); Vondra, C.F. (Iowa State Univ., Ames (United States))

1991-03-01T23:59:59.000Z

232

I'll Take Argonne for $200, Alex | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

I'll Take Argonne for $200, Alex I'll Take Argonne for $200, Alex I'll Take Argonne for $200, Alex March 10, 2011 - 2:20pm Addthis Charles Rousseaux Charles Rousseaux Senior Writer, Office of Science Argonne National Laboratory is one of the nation's oldest and largest national labs, where more than 3,000 employees do basic and applied research in virtually every scientific disciple. Argonne will also be featured as a question category on Jeopardy! tonight (check your local listings). Quick! Who is the only physicist currently serving in the U.S. House of Representatives? BUZZ If you answered "Rush Holt" from New Jersey, you're ready for the daily double. Got your breath back? Then here's the clue: This one factor is believed to be responsible for more than half of U.S. economic growth over the past century.

233

I'll Take Argonne for $200, Alex | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

I'll Take Argonne for $200, Alex I'll Take Argonne for $200, Alex I'll Take Argonne for $200, Alex March 10, 2011 - 2:20pm Addthis Charles Rousseaux Charles Rousseaux Senior Writer, Office of Science Argonne National Laboratory is one of the nation's oldest and largest national labs, where more than 3,000 employees do basic and applied research in virtually every scientific disciple. Argonne will also be featured as a question category on Jeopardy! tonight (check your local listings). Quick! Who is the only physicist currently serving in the U.S. House of Representatives? BUZZ If you answered "Rush Holt" from New Jersey, you're ready for the daily double. Got your breath back? Then here's the clue: This one factor is believed to be responsible for more than half of U.S. economic growth over the past century.

234

Secretary Moniz Announces Travel to Alaska, Idaho, Wyoming, Missouri to Discuss Energy Opportunities and Attend Dedication of Kansas City Plant  

Energy.gov (U.S. Department of Energy (DOE))

Energy Secretary Ernest Moniz will speak at two events in Alaska, host a meeting on the Quadrennial Energy Review in Wyoming, and attend the dedication ceremony at the opening of the Kansas City Plant in Missouri.

235

Structure of the eastern Red Rocks and Wind Ridge thrust faults, Wyoming: how a thrust fault gains displacement along strike  

E-Print Network (OSTI)

STRUCTURE OF THE EASTERN RED ROCKS AND WIND RIDGE THRUST FAULTS, WYOMING: HOW A THRUST FAULT GAINS DISPLACEMENT ALONG STRIKE A Thesis by BRENT STANLEY HUNTSMAN Submitted to the Graduate College of Texas A&M University in partial fulfillment... of the requirements for the degree of MASTER OF SCIENCE December 1983 Major Subject: Geology STRUCTURE OF THE EASTERN RED ROCKS AND WIND RIDGE THRUST FAULTS, WYOMING: HOW A THRUST FAULT GAINS DISPLACEMENT ALONG STRIKE A Thesis by BRENT STANLEY HUNTSMAN...

Huntsman, Brent Stanley

1983-01-01T23:59:59.000Z

236

Basement/cover rock relations of the Dry Fork Ridge Anticline termination, northeastern Bighorn Mountains, Wyoming and Montana  

E-Print Network (OSTI)

BASEMENT/COVER ROCK RELATIONS OF THE DRY FORK RIDGE ANTICLINE TERMINATION, NORTHEASTERN BIGHORN MOUNTAINS, WYOMING AND MONTANA A Thesis by PETER HILL HENNINGS Submitted to the Graduate College of Texas ARM University in partial fulfillment... of the requirements for the degree of MASTER OF SCIENCE August 1986 Major Subject: Geology BASEMENT/COVER ROCK RELATIONS OF THE DRY FORK RIDGE ANTICLINE TERMINATION, NORTHEASTERN BIGHORN MOUNTAINS, WYOMING AND MONTANA A Thesis by PETER HILL HENNINGS Approved...

Hennings, Peter Hill

1986-01-01T23:59:59.000Z

237

HealtH reform and oHsu how we'll change  

E-Print Network (OSTI)

HealtH reform and oHsu how we'll change Health reform will touch all of oHsu's missions. the coming changes are about more than public policy and health insurance. We will see transformation in how care is delivered, how health professionals are trained and how we decide what health care to buy. oHsu's missions

Chapman, Michael S.

238

A COMPARTMENTALIZED SIMULATION MODEL OF THE SOUTHERN NEW ENGLAND YELLOWTAIL FLOUNDER, LlMANDA FERRUGINEA, FISHERY  

E-Print Network (OSTI)

A COMPARTMENTALIZED SIMULATION MODEL OF THE SOUTHERN NEW ENGLAND YELLOWTAIL FLOUNDER, LlMANDA FERRUGINEA, FISHERY MICHAEL P. SISSENWINE' ABSTRACT A compartmentalized simulation model of the Southern New. The model shares many of the characteristics of Walters' (1969) "generalized computer simulation model

239

The Wyodak-Anderson coal assessment, Powder River Basin, Wyoming and Montana -- An ArcView project  

SciTech Connect

In 1997, more than 305 million short tons of clean and compliant coal were produced from the Wyodak-Anderson and associated coal beds and zones of the Paleocene Fort Union Formation in the Powder River Basin, Wyoming and Montana. To date, all coal produced from the Wyodak-Anderson, which averages 0.47 percent sulfur and 6.44 percent ash, has met regulatory compliance standards. Twenty-eight percent of the total US coal production in 1997 was from the Wyodak-Anderson coal. Based on the current consumption rates and forecast by the Energy Information Administration (1996), the Wyodak-Anderson coal is projected to produce 413 million short tons by the year 2016. In addition, this coal deposit as well as other Fort Union coals have recently been targeted for exploration and development of methane gas. New US Geological Survey (USGS) digital products could provide valuable assistance in future mining and gas development in the Powder River Basin. An interactive format, with querying tools, using ArcView software will display the digital products of the resource assessment of Wyodak-Anderson coal, a part of the USGS National Coal Resource Assessment of the Powder River Basin. This ArcView project includes coverages of the data point distribution; land use; surface and subsurface ownerships; coal geology, stratigraphy, quality and geochemistry; and preliminary coal resource calculations. These coverages are displayed as map views, cross sections, tables, and charts.

Flores, R.M.; Gunther, G.; Ochs, A.; Ellis, M.E.; Stricker, G.D.; Bader, L.R. [Geological Survey, Denver, CO (United States)

1998-12-31T23:59:59.000Z

240

,"Wyoming Natural Gas Underground Storage Capacity (MMcf)"  

U.S. Energy Information Administration (EIA) Indexed Site

Monthly","9/2013" Monthly","9/2013" ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","n5290wy2m.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/n5290wy2m.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 5:30:28 PM" "Back to Contents","Data 1: Wyoming Natural Gas Underground Storage Capacity (MMcf)" "Sourcekey","N5290WY2" "Date","Wyoming Natural Gas Underground Storage Capacity (MMcf)" 37271,105869 37302,105869 37330,105869 37361,105869

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241

Jobs and Economic Development from New Transmission and Generation in Wyoming  

Wind Powering America (EERE)

Efficiency & Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. Contract No. DE-AC36-08GO28308 Jobs and Economic Development from New Transmission and Generation in Wyoming Eric Lantz and Suzanne Tegen Technical Report NREL/TP-6A20-50577 March 2011 NREL is a national laboratory of the U.S. Department of Energy, Office of Energy Efficiency & Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. National Renewable Energy Laboratory 1617 Cole Boulevard Golden, Colorado 80401 303-275-3000 * www.nrel.gov Contract No. DE-AC36-08GO28308 Jobs and Economic Development from New Transmission and Generation in Wyoming Eric Lantz and Suzanne Tegen Prepared under Task No. WTQ1.1000

242

,"Wyoming Natural Gas Underground Storage Capacity (MMcf)"  

U.S. Energy Information Administration (EIA) Indexed Site

Annual",2012 Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","n5290wy2a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/n5290wy2a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 5:30:27 PM" "Back to Contents","Data 1: Wyoming Natural Gas Underground Storage Capacity (MMcf)" "Sourcekey","N5290WY2" "Date","Wyoming Natural Gas Underground Storage Capacity (MMcf)" 32324,103831 32689,103830 33054,106130 33419,106130 33785,105668

243

Wyoming Water Resources Research Centter Annual Technical Report  

E-Print Network (OSTI)

: Not Applicable Focus Category: Models, Surface Water, None Descriptors: Channel Erosion, Coal Bed Methane, Stable Operators Group Meeting, Casper, WY. #12;Problem and Research Objectives: Coal bed methane (CBM) development. Wilkerson, G.V., J.C. Baxter, J.H. Johnson, and J. Montgomery, Aug 2000. Presentation at the Methane

244

DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DI!TERJ.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DI!TERJ.llNATION DI!TERJ.llNATION RECIPIENT: Massachusetts Institute of Technology Page 1 of2 STATE: MA PROJECT TITLE: Scalable High-Efficiency Thin-Crystalline Si CElls Enabled by Light-Trapping Nanostructures Funding Opportunity Announcement Number Pr()(urement I.nstrument Number N[PA Control Number em Number DE-FOA-OOOO387 DE-EEOOO5320 GF0-0005320-OO1 0 Based on my review orlhe Information concerning the proposed action,.s NEPA Compliance Officer (authorized uDder- DOE Order 4SI.IA),1 have made tbe following deter-min.tion: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Information gathering (induding, but not limited 10, literature surveys, inventories, site visits, and audits). data analysis (including, but not limited to, oomputer modeling). document preparation (including, but not limited to, conceptual design,

245

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPADE=llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

NEPADE=llNATION NEPADE=llNATION RECIPIENT:Cily of Birmingham PROJECT TITLE: Birmingham Rae Center GSHP Installation ARRA-EECBG Page I of2 STATE: AL Funding Opportunity Announcement Numbe... Procurementlnstrumen( Number NEPA Control Number CID Number DE FOA 0000013 0 Based on my I'"Cview orthe information concerning the proposed action, as NEPA Compliance Officer (authori1.ed under DOE Order 451.1A).1 hne made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potential energy conservation, and promote energy-efficiency that do not Increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical assistance to individuals (such as builders, owners, consultants, designers), organizations (such as utilities), and state

246

u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NFPA DE~llNAl'ION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DE~llNAl'ION DE~llNAl'ION RECIPIENT:Tumer Hunt Ocean Renewable LLC (aka THOR LLC) PROJECT TITLE: THOR's Power Method Page I of2 STATE: OH Funding Opportunity Announcemcnt Number Pr(l(urement Instrument Number NEPA Control Number CIO Number DE-FQA'()(}()()293 DE-EEOOO3634 GFO-OOO3634-Q01 EE3634 Based on my review oflhe information eom::eming the proposed action, as NEPA Compliance Officer (autboro.ed under DOE Order 4SLIA),I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including. but nollimiled 10, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply

247

DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETFIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DETFIU.llNATION DETFIU.llNATION RECIPIENT:Battelie Memorial Institute Corporate PROJECT TITLE: Upgrading of Biomass Fast Pyrolysis Oil (Bio-oil) Page I of2 STATE: OH Funding Opportunity Announcement Numbe... PrO(:urement Instrument Number NEPA Control Number em Number DE-FOA-OOOO342 DE-EE0004391 GFO-OOO4391-OO1 EE4391 Based on my Tt:view of the information concerning the proposed adion, as NEPA Compliance Officer (authori7.ed under DOE Order 4Sl.IA),1 bave made the (oUowing determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 83.6 Siting. construction (or modification), operation, and decommissioning of facilities for indoor bench-scale research projects and conventtonallaboratory operations (for example, preparation of d'lemlcal standards and sample analysIs):

248

EERE PROJECT MANAGEMENT CENTER NEPA DETFIU.llNATION RECIPIENT:Aiaska Housing Finance Corporation  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DETFIU.llNATION DETFIU.llNATION RECIPIENT:Aiaska Housing Finance Corporation PROJECf TITLE: Johnson Youth Center Renovation Page 1 of2 STATE: AK Funding Opportunity Announcement Number Procurement Instrument Number "'EPA Control Number elD Number DE-FOA-OOOOOS2 DE-EEOOOO217 GF0-0000217-002 G010337 Based on my review oftbe information concerning the proposed acllon, as NEPA Compliance Officer (authorw.ed under DOE Order 4S1.1A),1 have made the following determination : ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potential energy conservation , and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical assistance to individuals (such as builders, owners, consultan

249

U.S. DEPARTl\llENT OF ENERGY EERE PROJECT MANAGEMENT CENTER  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

llENT OF ENERGY llENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETF~ITNATION Page 1 of2 RECIPIENT :American Iron and Steel Institute (AISI) STATE: UT PROJECT TITLE: A Novel Flash lronmaking Process Funding Opportunity Announcement Number DE-FOA-0000560 Procurement Instrument Number NEPA Control Number CJD Number DE-EE0005751 GF0-0005751-001 G05751 Based on my review of tbe information concerning tbe proposed action, as NEP A Compliance Officer (authorized under DOE Order 451.1A), I have made tbe following determination: CX, EA, EIS APPENDIX AND NUMB~R: Description: A9 Information gatheri ng, analysis, and dissemination 81 .31 Installation or relocation of machinery and equipment Information gathering (including, but not limited to, literature surveys, inventories, site visits, and

250

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETEIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

llNATION llNATION Rt:CIPIENT :Sapphire Energy, Inc. PROJECT TITL.E; The Development of Value-Added Products from Algae Residual Biomass Page I of2 STATE: NM Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-EEOOOO393 GF().OOO()393-001 0 Based on my review orlhe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I ha ~'e made the following determination: ex, EA, t:IS APPENDIX AND NUMBER: Description: 83.6 Siting, construction (or modification), operation, and decommissioning of facilities for indoor bench-scale research projects and conventional laboratory operations (for example, preparation of chemical standards and sample analysis); small-scale researd'l and development projects: and small-scale pilot projects (generally less than two years) conducted

251

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DFTFIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DFTFIU.llNATION DFTFIU.llNATION RECIPIENT:Oregon Stale University PROJECT TITLE: National Marine Renewable Energy Center Page I of3 STATE: OR Funding Opportunity Announcement Numbu Procurement Instrument Number NEPA Control Number CID Number DE-PSJ6.0SG098030 DE-FG36-08G018179.MOO2 GFO-G018179-003 G018179 Based on my review urlhe information concerning the proposed action, as NEPA Compliance Offien (authorized under DOE Order 4Sl.1A). I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but nollimiled 10, literature surveys, inventories, audits). data analysis (including ' oompuler modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply

252

LS-ll1 J. A. Jendrzej czyk M. W. Wambsganss R. K. Smith  

NLE Websites -- All DOE Office Websites (Extended Search)

ll1 ll1 J. A. Jendrzej czyk M. W. Wambsganss R. K. Smith March 1988 AMBIENT GROUND MOTION MEASUREMENTS AT ARGONNE NATIONAL LABORATORY OVER EXTENDED TIME PERIODS -1- BACKGROUND Successful operation of the APS facility requires a very stable particle beam. Vi brationcûupled thrûugh mechanical sy,stems, such as magnet suppûrts, beam tube supports, and other paths can cause deterioration of the particle beam. There are two sources of vibration: external, or far field, which is generated external to the APS site and internal, or near field, which is generated on site and associated with operation of the facility. Internal vibration sources can be controlled or minimized using good design practices to eliminate or reduce vibration amplitudes of machinery and equipment.

253

u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DllTEIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DllTEIU.llNATION DllTEIU.llNATION Page 1 0[2 RECIPIENT:Small Wind Certification Council STATE: CO PROJECT TITLE : Certifying the Penormance of Small Wind Turbines Funding Opportunity Announcement Number Sole Source Procurement Instrument Number NEPA Control Number CID Number DE-EEOOOO492 GF0-0000492-Q02 G0492 Based on my review ofthe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 45 1.1A),1 have made the following delemtinafion: ex, EA, EIS APPENDIX AND NUMBER: Description: A11 Techn ical advice and assistance to organizations A9 Information gatheri ng, analysis, and dissemi nation Rational for determination: Technical advice and planning assistance to international, national, state, and local organizations. Information gathering (including, bul not limited to. literature surveys, inventories, site visits, and

254

u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETEIU.llNATTON  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

llNATTON llNATTON Page 1 of2 RECIPIENT :Board of Trustees of the Leland Stanford Junior University STATE: CA PROJECT TITLE: Bay Area Photovoltics Consortium, Photovoltaic (PV) Manufacturing Initiative - Core Subawards Funding Opportunity Announcement Number DE-FOA-0002S9, PV Procurement Instrument Number DE-EEOO04946 NEPA Control Number em Number GFO'()()0494&Q03 G04946 Based on my review afthe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 45I.lA), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analYSiS, and dissemination 83.15 Small-scale indoor research and development projects using nanoscale materials Information gathering (including, but not limited to, literature surveys, inventories, site visits, and

255

Synthesis of fluorinated malonamides and use in L/L extraction of f-elements  

Science Journals Connector (OSTI)

Abstract Synthesis of new fluorinated tertiary malonamides (F-malonamides) was accomplished, and their liquid/liquid (L/L) extraction properties with f-elements were investigated. These molecules are fluorinated analogues of well known extractants used in several processes designed towards the treatment of nuclear wastes, and the efficient separation of lanthanides from minor actinides; however, the synthesis of F-malonamides deserved a modification of the general synthetic route commonly employed to prepare H-malonamides. Extraction of neodymium from various aqueous media into both fluorous and classical solvents was studied, which revealed an opposite trend between F-malonamides and H-malonamides: L/L extraction ability is very sensitive to the nitrogen atoms substitution pattern, and the most efficient F-malonamide is compound 3 (R1=Me), whereas the best H-malonamide is compound 5 (R1=Bu, DMDBTDMA).

Marie-Claire Dul; Damien Bourgeois; Jrme Maynadi; Daniel Meyer

2013-01-01T23:59:59.000Z

256

ST/STIS Spectroscopy of the White Dwarfs in the Short-Period Dwarf Novae LL And and EF Peg  

E-Print Network (OSTI)

We present new HST/STIS observations of the short-period dwarf novae LL And and EF Peg during deep quiescence. We fit stellar models to the UV spectra and use optical and IR observations to determine the physical parameters of the whitedwarfs in the systems, the distances to the binaries, and the properties of thesecondary stars. Both white dwarfs are relatively cool, having T_{eff} near 15000K, and consistent with a mass of 0.6 M-sun. The white dwarf in LL And appears to be of solar abundance or slightly lower while that in EF Peg is near 0.1-0.3 solar. LL And is found to be 760 pc away while EF Peg is closer at 380 pc. EF Peg appears to have an ~M5V secondary star, consistent with that expected for its orbital period, while the secondary object in LL And remains a mystery.

S. Howell; B. Gansicke; P. Szkody; E. Sion

2002-04-11T23:59:59.000Z

257

The Technical and Economic Feasibility of Siting Synfuels Plants in Wyoming  

SciTech Connect

A comprehensive study has been completed to determine the feasibility of constructing and operating gasification and reforming plants which convert Wyoming fossil resources (coal and natural gas) into the higher value products of power, transportation fuels, and chemical feedstocks, such as ammonia and methanol. Detailed plant designs, simulation models, economic models and well-to-wheel greenhouse gas models were developed, validated by national-level engineering firms, which were used to address the following issues that heretofore have prevented these types of projects from going forward in Wyoming, as much as elsewhere in the United States: 1. Quantification of plant capital and operating expenditures 2. Optimization of plant heat integration 3. Quantification of coal, natural gas, electricity, and water requirements 4. Access to raw materials and markets 5. Requirements for new infrastructure, such as electrical power lines and product pipelines 6. The possible cost-benefit tradeoffs of using natural gas reforming versus coal gasification 7. The extent of labor resources required for plant construction and for permanent operations 8. Options for managing associated CO2 emissions, including capture and uses in enhanced oil recovery and sequestration 9. Options for reducing water requirements such as recovery of the high moisture content in Wyoming coal and use of air coolers rather than cooling towers 10. Permitting requirements 11. Construction, and economic impacts on the local communities This paper will summarize the analysis completed for two major synfuels production pathways, methanol to gasoline and Fischer-Trosph diesel production, using either coal or natural gas as a feedstock.

Anastasia M Gandrik; Rick A Wood; David Bell; William Schaffers; Thomas Foulke; Richard D Boardman

2011-09-01T23:59:59.000Z

258

,"Wyoming Dry Natural Gas Reserves New Field Discoveries (Billion Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

New Field Discoveries (Billion Cubic Feet)" New Field Discoveries (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Dry Natural Gas Reserves New Field Discoveries (Billion Cubic Feet)",1,"Annual",2011 ,"Release Date:","8/1/2013" ,"Next Release Date:","8/1/2014" ,"Excel File Name:","rngr18swy_1a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngr18swy_1a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov"

259

,"Wyoming Dry Natural Gas Reserves Sales (Billion Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Sales (Billion Cubic Feet)" Sales (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Dry Natural Gas Reserves Sales (Billion Cubic Feet)",1,"Annual",2011 ,"Release Date:","8/1/2013" ,"Next Release Date:","8/1/2014" ,"Excel File Name:","rngr15swy_1a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngr15swy_1a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 6:10:25 PM"

260

,"Wyoming Natural Gas Input Supplemental Fuels (MMcf)"  

U.S. Energy Information Administration (EIA) Indexed Site

Input Supplemental Fuels (MMcf)" Input Supplemental Fuels (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Input Supplemental Fuels (MMcf)",1,"Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","na1400_swy_2a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/na1400_swy_2a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/19/2013 6:58:57 AM"

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

,"Wyoming Dry Natural Gas Reserves Acquisitions (Billion Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Acquisitions (Billion Cubic Feet)" Acquisitions (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Dry Natural Gas Reserves Acquisitions (Billion Cubic Feet)",1,"Annual",2011 ,"Release Date:","8/1/2013" ,"Next Release Date:","8/1/2014" ,"Excel File Name:","rngr16swy_1a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngr16swy_1a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 6:10:41 PM"

262

,"Wyoming Dry Natural Gas Reserves Adjustments (Billion Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Adjustments (Billion Cubic Feet)" Adjustments (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Dry Natural Gas Reserves Adjustments (Billion Cubic Feet)",1,"Annual",2011 ,"Release Date:","8/1/2013" ,"Next Release Date:","8/1/2014" ,"Excel File Name:","rngr12swy_1a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngr12swy_1a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 6:09:36 PM"

263

,"Wyoming Natural Gas Plant Fuel Consumption (MMcf)"  

U.S. Energy Information Administration (EIA) Indexed Site

Fuel Consumption (MMcf)" Fuel Consumption (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Plant Fuel Consumption (MMcf)",1,"Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","na1850_swy_2a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/na1850_swy_2a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 5:52:54 PM"

264

,"Wyoming Natural Gas Plant Liquids Production, Gaseous Equivalent (MMcf)"  

U.S. Energy Information Administration (EIA) Indexed Site

Liquids Production, Gaseous Equivalent (MMcf)" Liquids Production, Gaseous Equivalent (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Plant Liquids Production, Gaseous Equivalent (MMcf)",1,"Annual",2011 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","na1150_swy_2a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/na1150_swy_2a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov"

265

Mechanical properties of Mesaverde sandstone and shale at high pressures. [Colorado and Wyoming  

SciTech Connect

This report covers the mechanical properties of Mesaverde rock (shale and sandstone) core samples from various depths in five wells in Colorado and Wyoming. The properties studied were tensile strength, compressive strength, hydrostatic compressibility, shear stress under one-dimensional strain compression, and static elastic moduli. With respect to these properties, the sandstones are virtually isotropic. The shales, on the other hand, are definitely anisotropic. The nature and degree of anisotropy of the shales vary with the depth of sample origin. In addition, the relative values of these mechanical properties between the shale and the sandstone also vary with depth.

Lin, W.

1983-04-01T23:59:59.000Z

266

Abandoned oil fields in Alaska, California, Colorado, Montana, North Dakota, Utah and Wyoming  

SciTech Connect

This publication lists approximately 250 abandoned oil fields in Alaska, California, Colorado, Montana, North Dakota, Utah and Wyoming that have produced 10,000 or more barrels of oil before abandonment. The following information is provided for each field: county; DOE field code; field name; AAPG geologic province code; discovery data of field; year of last production; discovery well operator; proven acreage; formation thickness; depth of field; gravity of oil production; calendar year; yearly field oil production; yearly field gas production; cumulative oil production; cumulative gas production; number abandoned fields in county; cumulative production of oil from fields; cumulative production of gas from fields. (ATT)

Not Available

1983-04-01T23:59:59.000Z

267

,"Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Wellhead Price (Dollars per Thousand Cubic Feet)" Wellhead Price (Dollars per Thousand Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)",1,"Annual",2010 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","na1140_swy_3a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/na1140_swy_3a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov"

268

EIS-0450: TransWest Express 600 kV Direct Current Transmission Project in Wyoming, Colorado, Utah, and Nevada  

Energy.gov (U.S. Department of Energy (DOE))

This EIS, being prepared jointly by DOEs Western Area Power Administration and the Department of the Interiors Bureau of Land Management (Wyoming State Office), evaluates the environmental impacts of granting a right-of-way for the TransWest Express 600-kilovolt Direct Current Transmission Project and amending a land use plan. The project consists of an overhead transmission line that would extend approximately 725 miles from south-central Wyoming, through Colorado and Utah. Western proposes to be a joint owner of the project.

270

Rrecord of Decision (EPA Region 5): Chem-Central Site, Wyoming, MI. (First remedial action), September 1991. Final report  

SciTech Connect

The 2-acre Chem-Central site is a bulk chemical storage facility in Wyoming, Kent County, Michigan. Land use in the area is a mixture of residential and commercial. An estimated 10,000 people live within 1 mile of the site and receive their water supply via the municipal distribution system. Two creeks, Cole Drain and Plaster Creek, lie in proximity to the site. Between 1957 and 1962, hazardous substances entered the ground as a result of faulty construction of a .T-arm pipe used to transfer liquid products from bulk storage tanks to small delivery trucks. Additional hazardous substances may have entered the ground through accidental spills. In 1977, a routine State biological survey of Plaster Creek identified a contaminated ditch containing oils with organic compounds including PCBs and metals that was discharging into Cole Drain. Between 1978 and 1986, the State and EPA focused their efforts on finding and eliminating the source of the ditch contamination through extensive investigations of area soil, ground water, and surface water. Results indicated that ground water and soil surrounding and north of the Chem-Central plant were contaminated with volatile and semi-volatile organic compounds. The Record of Decision (ROD) addresses a remedy for contaminated onsite soil, contaminated offsite soil surrounding and north of the plant, and then addresses a remedy for contaminated onsite soil, contaminated offsite soil surrounding and north of the plant, and the ground water contamination plume emanating from the plant and spreading 1,800 feet northward. The primary contaminants of concern affecting the soil and ground water are VOCs including PCE, TCE, and toluene; and other organics including PAHs and PCBs. The selected remedial action for this site is included.

Not Available

1991-09-30T23:59:59.000Z

271

The potential for coalbed gas exploration and production in the Greater Green River Basin, southwest Wyoming and northwest Colorado  

SciTech Connect

Coalbed gas is an important source of natural gas in the United States. In 1993, approximately 740 BCF of coalbed gas was produced in the United States, or about 4.2% of the nation`s total gas production. Nearly 96% of this coalbed gas is produced from just two basins, the San Juan (615.7 BCF; gas in place 84 TCF) and Black Warrior (105 BCF; gas in place 20 TCF), and current production represents only a fraction of the nation`s estimated 675 TCF of in-place coalbed gas. Coal beds in the Greater Green River Basin in southwest Wyoming and northwest Colorado hold almost half of the gas in place (314 TCF) and are an important source of gas for low-permeability Almond sandstones. Because total gas in place in the Greater Green River Basin is reported to exceed 3,000 TCF (Law et al., 1989), the basin may substantially increase the domestic gas resource base. Therefore, through integrated geologic and hydrologic studies, the coalbed gas potential of the basin was assessed where tectonic, structural, and depositional setting, coal distribution and rank, gas content, coal permeability, and ground-water flow are critical controls on coalbed gas producibility. Synergism between these geologic and hydrologic controls determines gas productivity. High productivity is governed by (1) thick, laterally continuous coals of high thermal maturity, (2) basinward flow of ground water through fractured and permeable coals, down the coal rank gradient toward no-flow boundaries oriented perpendicular to the regional flow direction, and (3) conventional trapping of gas along those boundaries to provide additional sources of gas beyond that sorbed on the coal surface.

Tyler, R.; Kaiser, W.R.; Scott, A.R.; Hamilton, D.S. [Univ. of Texas, Austin, TX (United States)

1997-01-01T23:59:59.000Z

272

Wyoming Natural Gas Delivered to Commercial Consumers for the Account of  

Gasoline and Diesel Fuel Update (EIA)

Delivered to Commercial Consumers for the Account of Others (Million Cubic Feet) Delivered to Commercial Consumers for the Account of Others (Million Cubic Feet) Wyoming Natural Gas Delivered to Commercial Consumers for the Account of Others (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1980's 0 0 7 1990's 21 89 160 207 358 632 1,370 1,705 987 1,070 2000's 974 1,291 5,338 4,824 4,816 4,657 4,963 4,788 3,501 3,581 2010's 3,857 4,210 3,920 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 1/7/2014 Next Release Date: 1/31/2014 Referring Pages: Natural Gas Delivered to Commercial Consumers for the Account of Others Wyoming Natural Gas Delivered for the Account of Others

273

Basic data for thermal springs and wells as recorded in GEOTHERM: Wyoming  

SciTech Connect

GEOTHERM sample file contains 356 records for Wyoming. Three computer-generated indexes are found in appendices A, B, and C of this report. The indexes give one line summaries of each GEOTHERM record describing the chemistry of geothermal springs and wells in the sample file for Wyoming. Each index is sorted by different variables to assist the user in locating geothermal records describing specific sites. Appendix A is sorted by the county name and the name of the source. Also given are latitude, longitude (both use decimal minutes), township, range, section, GEOTHERM record identifier, and temperature (/sup 0/C). Appendix B is sorted by county, township, range, and section. Also given are name of source, GEOTHERM record identifier, and temperature (/sup 0/C). Appendix C is first sorted into one-degree blocks by latitude, and longitude, and then by name of source. Adjacent one-degree blocks which are published as a 1:250,000 map are combined under the appropriate map name. Also given are GEOTHERM record identifier, and temperature (/sup 0/C). A bibliography is given in Appendix D.

Bliss, J.D.

1983-05-01T23:59:59.000Z

274

Tiger Team Assessment of the Navel Petroleum and Oil Shale Reserves Colorado, Utah, and Wyoming  

SciTech Connect

This report documents the Tiger Team Assessment of the Naval Petroleum Oil Shale Reserves in Colorado, Utah, and Wyoming (NPOSR-CUW). NPOSR-CUW consists of Naval Petroleum Reserve Number 3 located near Casper, Wyoming; Naval Oil Shale Reserve Number I and Naval Oil Shale Reserve Number 3 located near Rifle, Colorado; and Naval Oil Shale Reserve Number 2 located near Vernal, Utah, which was not examined as part of this assessment. The assessment was comprehensive, encompassing environment, safety, and health (ES H) and quality assurance (QA) disciplines; site remediation; facilities management; and waste management operations. Compliance with applicable Federal, state, and local regulations; applicable DOE Orders; best management practices; and internal NPOSR-CUW requirements was assessed. The NPOSR-CUW Tiger Team Assessment is part of a larger, comprehensive DOE Tiger Team Independent Assessment Program planned for DOE facilities. The objective of the initiative is to provide the Secretary with information on the compliance status of DOE facilities with regard to ES H requirements, root causes for noncompliance, adequacy of DOE and contractor ES H management programs, response actions to address the identified problem areas, and DOE-wide ES H compliance trends and root causes.

Not Available

1992-07-01T23:59:59.000Z

275

Detailed compositional analysis of gas seepage at the National Carbon Storage Test Site, Teapot Dome, Wyoming, USA  

Science Journals Connector (OSTI)

A baseline determination of CO2 and CH4 fluxes and soil gas concentrations of CO2 and CH4 was made over the Teapot Dome oil field in the Naval Petroleum Reserve No. 3 (NPR-3) in Wyoming, USA. This was done in anticipation of experimentation with CO2 sequestration in the Pennsylvanian Tensleep Sandstone underlying the field at a depth of 1680m. The baseline data were collected during the winter, 2004 in order to minimize near-surface biological activity in the soil profile. The baseline data were used to select anomalous locations that may be the result of seeping thermogenic gas, along with background locations. Five 10-m holes were drilled, 3 of which had anomalous gas microseepage, and 2 were characterized as background. These were equipped for nested gas sampling at depths of 10-, 5-, 3-, 2-, and 1-m depths. Methane concentrations as high as 170,000ppmv (17%) were found, along with high concentrations of C2H6, C3H8, n-C4H10, and i-C4H10. Much smaller concentrations of C2H4 and C3H6 were observed indicating the beginning of hydrocarbon oxidation in the anomalous holes. The anomalous 10-m holes also had high concentrations of isotopically enriched CO2, indicating the oxidation of hydrocarbons. Concentrations of the gases decreased upward, as expected, indicating oxidation and transport into the atmosphere. The ancient source of the gases was confirmed by 14C determinations on CO2, with radiocarbon ages approaching 38ka within 5m of the surface. Modeling was used to analyze the distribution of hydrocarbons in the anomalous and background 10-m holes. Diffusion alone was not sufficient to account for the hydrocarbon concentration distributions, however the data could be fit with the addition of a consumptive reaction. First-order rate constants for methanotrophic oxidation were obtained by inverse modeling. High rates of oxidation were found, particularly near the surface in the anomalous 10-m holes, demonstrating the effectiveness of the process in the attenuation of CH4 microseepage. The results also demonstrate the importance of CH4 measurements in the planning of a monitoring and verification program for geological CO2 sequestration in sites with significant remaining hydrocarbons (i.e. spent oil reservoirs).

Ronald W. Klusman

2006-01-01T23:59:59.000Z

276

NAME M/YEAR MASTERS THESES TITLES SCOPEL, ROBERT B Jun49 The Volcanic History of Jackson Hole, Wyoming  

E-Print Network (OSTI)

, Park County, Wyoming GOSSER, CHARLES F. Jun60 Petrography and Metamorphism of the Star Lake Area of the Keewatin Province, Ontario RUBEL, DANIEL N Apr59 Tertiary volcanic rocks of the Cooke city - pilot peak, Montana BRUEHL, DONALD H. Jun61 The Petrography and Structure of an area North of Cooke City, Montana #12

Baskaran, Mark

277

NAME M/YEAR MASTERS THESES TITLES COMMENTS SCOPEL, ROBERT B Jun-49 The Volcanic History of Jackson Hole, Wyoming  

E-Print Network (OSTI)

The Coldwater Formation in the Area of the Allegan Area of Southwestern Michigan ROWE, DEAN E Aug-51 Hole, Wyoming SIMONS, MERTON E Aug-49 Insoluble Residues of the Traverse Group in the Petoskey Area. Jun-50 Geology of an Area North of Gardener, Montana MORDEN, AUDLEY D., JR Jun-50 Stratigraphy

Berdichevsky, Victor

278

North American Power Symposium NAPS, Laramie, Wyoming, October 1997, pp. 49 54. Fundamental Frequency Model of Static Synchronous Compensator  

E-Print Network (OSTI)

North American Power Symposium NAPS, Laramie, Wyoming, October 1997, pp. 49 54. Fundamental collapse studies, that required accurate representation of fundamental frequency operation and control on the utilization of high-current, high-voltage power electronic controllers 1, 2, 3, 4 . The authors in 2, 3

Cañizares, Claudio A.

279

HumanWildlife Interactions 8(2):284290, Fall 2014 Oil and gas impacts on Wyoming's sage-  

E-Print Network (OSTI)

Human­Wildlife Interactions 8(2):284­290, Fall 2014 Oil and gas impacts on Wyoming's sage- grouse: Historical impacts from oil and gas development to greater sage-grouse (Centrocercus urophasianus) habitat been extrapolated to estimate future oil and gas impacts in the U. S. Fish and Wildlife Service (2010

280

Development of surface mine cost estimating equations  

SciTech Connect

Cost estimating equations were developed to determine capital and operating costs for five surface coal mine models in Central Appalachia, Northern Appalachia, Mid-West, Far-West, and Campbell County, Wyoming. Engineering equations were used to estimate equipment costs for the stripping function and for the coal loading and hauling function for the base case mine and for several mines with different annual production levels and/or different overburden removal requirements. Deferred costs were then determined through application of the base case depreciation schedules, and direct labor costs were easily established once the equipment quantities (and, hence, manpower requirements) were determined. The data points were then fit with appropriate functional forms, and these were then multiplied by appropriate adjustment factors so that the resulting equations yielded the model mine costs for initial and deferred capital and annual operating cost. (The validity of this scaling process is based on the assumption that total initial and deferred capital costs are proportional to the initial and deferred costs for the primary equipment types that were considered and that annual operating cost is proportional to the direct labor costs that were determined based on primary equipment quantities.) Initial capital costs ranged from $3,910,470 in Central Appalachia to $49,296,785; deferred capital costs ranged from $3,220,000 in Central Appalachia to $30,735,000 in Campbell County, Wyoming; and annual operating costs ranged from $2,924,148 in Central Appalachia to $32,708,591 in Campbell County, Wyoming. (DMC)

Not Available

1980-09-26T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


281

Can we improve the ?? mass limit from the decay ??l?l???  

Science Journals Connector (OSTI)

In this paper, we discuss the possibility of improving the present limits on the ?? mass by studying the end point of the charged-lepton energy spectrum in the decay ??l?l??. We compute a general expression for the ? differential decay rate in the laboratory system, assuming that neither the ?? nor the charged-lepton masses are zero. From this expression we extract the influence of the ?-neutrino mass on the e- energy spectrum in the case ??e?e??. We show that this influence is only important near the very end point of the electron energy spectrum (i.e., for x>0.99 where x=2Ee/m?) and consider what luminosity and experimental resolutions are needed to improve the current ?? mass limit. We also consider the decay ??????? and show that it is less suited for our purposes since the ? mass causes the influence of the ?? mass to be less important. We conclude that, from the study of the decay ??l?l??, an upper bound for the ?? mass of the order of 2040 MeV can easily be achieved by proposed experiments while an upper bound of the order of 1 MeV would require a luminosity and detector resolution which are out of the reach of such experiments.

J. J. Gomez-Cadenas and C. M. Gonzalez-Garcia

1989-03-01T23:59:59.000Z

282

Adaptive Management and Planning Models for Cultural Resources in Oil and Gas Fields in New Mexico and Wyoming  

SciTech Connect

In 2002, Gnomon, Inc., entered into a cooperative agreement with the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) for a project entitled, Adaptive Management and Planning Models for Cultural Resources in Oil and Gas Fields in New Mexico and Wyoming (DE-FC26-02NT15445). This project, funded through DOEs Preferred Upstream Management Practices grant program, examined cultural resource management practices in two major oil- and gas-producing areas, southeastern New Mexico and the Powder River Basin of Wyoming (Figure 1). The purpose of this project was to examine how cultural resources have been investigated and managed and to identify more effective management practices. The project also was designed to build information technology and modeling tools to meet both current and future management needs. The goals of the project were described in the original proposal as follows: Goal 1. Create seamless information systems for the project areas. Goal 2. Examine what we have learned from archaeological work in the southeastern New Mexico oil fields and whether there are better ways to gain additional knowledge more rapidly or at a lower cost. Goal 3. Provide useful sensitivity models for planning, management, and as guidelines for field investigations. Goal 4. Integrate management, investigation, and decision- making in a real-time electronic system. Gnomon, Inc., in partnership with the Wyoming State Historic Preservation Office (WYSHPO) and Western GeoArch Research, carried out the Wyoming portion of the project. SRI Foundation, in partnership with the New Mexico Historic Preservation Division (NMHPD), Statistical Research, Inc., and Red Rock Geological Enterprises, completed the New Mexico component of the project. Both the New Mexico and Wyoming summaries concluded with recommendations how cultural resource management (CRM) processes might be modified based on the findings of this research.

Eckerle, William; Hall, Stephen

2005-12-30T23:59:59.000Z

283

STATEMENT OF CONSIDERA"nONS REQUEST BY LlGNOL INNOVATIONS, LTD, (LIGNOL LTD) FOR AN ADVANCE WAIVER OF  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

CONSIDERA"nONS CONSIDERA"nONS REQUEST BY LlGNOL INNOVATIONS, LTD, (LIGNOL LTD) FOR AN ADVANCE WAIVER OF DOMESTIC AND FOREIGN PATENT RIGHTS UNDER A PROPOSED SUB-AWARD OF COOPERATIVE AGREEMENT NO. DE-FG36-0BG01B047 BETWEEN LlGNOL INNOVATIONS, INC. (LIGNOL INC) AND DOE; W(A)200B-036, CH-1463 The Petitioner, LlGNOL LTD, has requested a waiver of domestic and foreign patent rights for all subject inventions arising from its participation under the above referenced award entitled "Lignol Demonstration Biorefinery." Petitioner is proposed to become a subawardee under LlGNOL INC (which is Petitioner's U.S. entity) by means of a sub-award agreement. Since LlGNOL INC has certified that it is a domestic small business entity, subject inventions made by LlGNOL INC under the award are not subject to the U.S. Competitiveness provision. However,

284

,"Wyoming Natural Gas Vehicle Fuel Price (Dollars per Thousand Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Price (Dollars per Thousand Cubic Feet)" Price (Dollars per Thousand Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Wyoming Natural Gas Vehicle Fuel Price (Dollars per Thousand Cubic Feet)",1,"Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","na1570_swy_3a.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/na1570_swy_3a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/12/2013 5:52:09 PM"

285

Challenges in assessment, management and development of coalbed methane resources in the Powder River Basin, Wyoming  

SciTech Connect

Coalbed methane development in the Powder River Basin has accelerated rapidly since the mid-1990's. forecasts of coalbed methane (CBM) production and development made during the late 1980's and early 1990's have proven to be distinctly unreliable. Estimates of gas in place and recoverable reserves have also varied widely. This lack of reliable data creates challenges in resource assessment, management and development for public resource management agencies and the CBM operators. These challenges include a variety of complex technical, legal and resource management-related issues. The Bureau of Land Management's Wyoming Reservoir Management Group (WRMG) and US Geological Survey (USGS), with the cooperation and assistance of CBM operators and other interested parties have initiated cooperative studies to address some of these issues. This paper presents results of those studies to date and outlines the agencies' goals and accomplishments expected at the studies' conclusion.

McGarry, D.E.

2000-07-01T23:59:59.000Z

286

Detrital U-Pb geochronology provenance analyses: case studies in the Greater Green River Basin, Wyoming, and the Book Cliffs, Utah  

E-Print Network (OSTI)

of the Pine Ridge Sandstone and Almond Formation of the Mesaverde Group, Lewis Shale and Fox Hills Sandstone in the Greater Green River Basin, Rawlins, Wyoming, were investigated to test and develop mineral separation techniques. The methods developed here...

Lippert, Peter Gregory

2014-05-31T23:59:59.000Z

287

Paleontological overview of oil shale and tar sands areas in Colorado, Utah, and Wyoming.  

SciTech Connect

In August 2005, the U.S. Congress enacted the Energy Policy Act of 2005, Public Law 109-58. In Section 369 of this Act, also known as the ''Oil Shale, Tar Sands, and Other Strategic Unconventional Fuels Act of 2005,'' Congress declared that oil shale and tar sands (and other unconventional fuels) are strategically important domestic energy resources that should be developed to reduce the nation's growing dependence on oil from politically and economically unstable foreign sources. In addition, Congress declared that both research- and commercial-scale development of oil shale and tar sands should (1) be conducted in an environmentally sound manner using management practices that will minimize potential impacts, (2) occur with an emphasis on sustainability, and (3) benefit the United States while taking into account concerns of the affected states and communities. To support this declaration of policy, Congress directed the Secretary of the Interior to undertake a series of steps, several of which are directly related to the development of a commercial leasing program for oil shale and tar sands. One of these steps was the completion of a programmatic environmental impact statement (PEIS) to analyze the impacts of a commercial leasing program for oil shale and tar sands resources on public lands, with an emphasis on the most geologically prospective lands in Colorado, Utah, and Wyoming. For oil shale, the scope of the PEIS analysis includes public lands within the Green River, Washakie, Uinta, and Piceance Creek Basins. For tar sands, the scope includes Special Tar Sand Areas (STSAs) located in Utah. This paleontological resources overview report was prepared in support of the Oil Shale and Tar Sands Resource Management Plan Amendments to Address Land Use Allocations in Colorado, Utah, and Wyoming and PEIS, and it is intended to be used by Bureau of Land Management (BLM) regional paleontologists and field office staff to support future projectspecific analyses. Additional information about the PEIS can be found at http://ostseis.anl.gov.

Murphey, P. C.; Daitch, D.; Environmental Science Division

2009-02-11T23:59:59.000Z

288

Environmental assessment for the Hoe Creek underground, Coal Gasification Test Site Remediation, Campbell County, Wyoming  

SciTech Connect

The U.S. Department of Energy (DOE) has prepared this EA to assess environmental and human health Issues and to determine potential impacts associated with the proposed Hoe Creek Underground Coal Gasification Test Site Remediation that would be performed at the Hoe Creek site in Campbell County, Wyoming. The Hoe Creek site is located south-southwest of the town of Gillette, Wyoming, and encompasses 71 acres of public land under the stewardship of the Bureau of Land Management. The proposed action identified in the EA is for the DOE to perform air sparging with bioremediation at the Hoe Creek site to remove contaminants resulting from underground coal gasification (UCG) experiments performed there by the DOE in the late 1970s. The proposed action would involve drilling additional wells at two of the UCG test sites to apply oxygen or hydrogen peroxide to the subsurface to volatilize benzene dissolved in the groundwater and enhance bioremediation of non-aqueous phase liquids present in the subsurface. Other alternatives considered are site excavation to remove contaminants, continuation of the annual pump and treat actions that have been used at the site over the last ten years to limit contaminant migration, and the no action alternative. Issues examined in detail in the EA are air quality, geology, human health and safety, noise, soils, solid and hazardous waste, threatened and endangered species, vegetation, water resources, and wildlife. Details of mitigative measures that could be used to limit any detrimental effects resulting from the proposed action or any of the alternatives are discussed, and information on anticipated effects identified by other government agencies is provided.

NONE

1997-10-01T23:59:59.000Z

289

Shannon Sandstone in Wyoming: A shelf-ridge complex reinterpreted as lowstand shoreface deposits  

SciTech Connect

The Shannon Sandstone (Campanian) of Wyoming was formerly interpreted as two stacked shelf-ridge complexes. Sand was believed to have been transported from a time-equivalent shoreline 110-150 km to the west and reworked or molded into ridges at the depositional site. The authors show that this time-equivalent shoreline section at Lucerne, Wyoming, consists of not one shoreface sandbody, but two superimposed. They are both storm-dominated, and the lower one terminates in beach facies capped by root traces. There must have been a rise in relative sea level of at least 14m to make accommodation space for the second shoreface sandbody. In the Slat Creek area and the adjacent subsurface Teapot Dome, there are two sandier-upward facies successions. In the lower succession there are abrupt vertical facies contacts between offshore bioturbated sandstones, thicker hummocky cross-stratified sandstones, and coarser cross-bedded sandstones. There is also evidence that the cross-bedded sandstones rest erosively on underlying facies. The trace fauna in the sandstones includes Macaronichnum segregatis, Rosselia socialis, and Ophiomorpha. The M. segregatis suggests a foreshore or upper-shoreface depositional environment, and R. socialis indicates a lower to middle shoreface; neither are characteristic of a shelf-ridge complex. The abrupt and probably erosive facies contacts, along with the trace fauna, suggest that the cross-bedded sandstones in this succession represent a shoreface deposit that formed during a stage of actively falling relative sea level. Overlying muddy bioturbated sandstones indicate that shoreface deposition was terminated by a transgression. The upper sandier-upward succession contains facies and trace fauna similar to those of the lower succession, and is also interpreted as a prograding shoreface.

Walker, R.G.; Bergman, K.M. (McMaster Univ., Hamilton, Ontario (Canada). Dept. of Geology)

1993-09-01T23:59:59.000Z

290

u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETnu.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

"i"! ) "i"! ) u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETnu.llNATION RECIPU:NT: Battelie Memoriallnstilute PROJECf TITLE: Stationary Fuel Cell System Cost Analysis Page 1 of2 STATE : OH I·unding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA..()()()()420 EEOOO5250 GF0-000525CHX)1 0 Based on my review or the information concerning the proposed action, as NEPA Compliance Offker (authorized under DOE Order 4S1.IA), I have made the (ollowlng determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including , but not limited to, literature surveys, inventories. audits). data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply and

291

DEPARn.lliNT OF ENERGY EERE PROJECT MANAGEM ENT CENTER NEPA DETERl\llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

·I.· ~I ·I.· ~I u.s. DEPARn.lliNT OF ENERGY EERE PROJECT MANAGEM ENT CENTER NEPA DETERl\llNATION RECIPIENT:City of Philadelphia. PA Page 1 01 L STATE: PA PROJEC.T TITLE: Philadelphia (PA): NovaThermal Energy - Waste Heat Geothermal Pilot Demonstratlon - EECBG - ARRA Funding Opportunity Announcement Number OE-FOA-OOOOO13 Procurement Instrument Number EE0000927 NEPA Control Number elD Number GF0-000Q927 -003 0 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI.IA), I have made the following determination: ex, EA, [IS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy. demonstrate potential energy conservation, and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financia

292

IIIENI OF ENERGY EERE PROJECT MAN AGEMENT CENTER NEPA DEIERl\llNAIIoN  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DEPARI DEPARI IIIENI OF ENERGY EERE PROJECT MAN AGEMENT CENTER NEPA DEIERl\llNAIIoN RECIPIENT ;Slale of Wisconsin SEP ARRA Caseus Energy Inc. PROJECT TITLE; SEP - Wney Permeale 10 Ethanol Process Page 1 of2 ST ATE; WI Funding Opportunity Announcement Number DE FOA 000052 Procurement Instrument Number NEPA Control Number CID Number GFO-10-147-007 0 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.IA), I have made the followin~ determination; CX, EA, EI S APPEND IX AND NUMBER; Oescription: 85.1 Actions to conserve energy, demonstrate potential energy conservation, and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

293

T OF ENERG Y EERE PROJECT MANAGEMENT CENTER NEPA DETE~llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DEPARTI\IEN DEPARTI\IEN T OF ENERG Y EERE PROJECT MANAGEMENT CENTER NEPA DETE~llNATION RECIPIENT:lexington·Fayette Urnan County Govemment PROJECf TITLE: eeCBG Program Community Bike Project Page 1 of2 STATE: KY Funding Opportunity Announc:tment Number Proc:urtmtnt Instrument Number NEPA Control Number CID Number DE· EEOOOO728.Q0 1 0 Bastd on my rtview of the information c:onc:erning the proposed ac:tion, as NEPA Complianc:e Offic:er (authorized under DOE Order 4SI.tA), I have made the following determination: CX, EA, EIS APPENDIX AND NUMBER: Description: B5.1 Actions to conserve energy, demonstrate potential energy conservation, and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

294

DEPARTMENT OF ENFRGY EERE PROJECT MANAGEMENT CENTER NEPA DETEIu.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ENFRGY ENFRGY EERE PROJECT MANAGEMENT CENTER NEPA DETEIu.llNATION RECIPIENT:Montana Stale University PROJECf TITLE : Montana SioDiesellnitiative Page 1 of2 STATE: MT Funding Opportunity Announcement Number Procuremenllnstrument Number NEPA Control Number CIO Number DE· EEOOO3136 GF0-0003136-002 EE3136 Based on my rrview of the infonnatlon conccming tbe proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the (ollowlng determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 83.6 Siting , construction (or modification), operation, and decommissioning of facilities for indoor benen-scale research projects and conventional laboratory operations (for example, preparation of chemical standards and sample analysis):

295

EERE I'ROJECTMANAGEMENTCENTER NEPA DFl'FR}.llNATlON  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Port of Benton Port of Benton u.s. DEPARThIFNT OFI!NERG¥ EERE I'ROJECTMANAGEMENTCENTER NEPA DFl'FR}.llNATlON Page 1 of2 STATE: WA PROJECT TITLE: Production of Infrastructure - Ready fuels from Agricultural Biomass Reserch and Development Project Funding Opportunity Announcement Number PrCH.'urement Instrument Number NEPA Control Number CIO Number DE-EE()()()()391 GF()'()()()()391-OO3 EE391 Based on my review ollbe Information concerning the proposed aclion, a§ NEPA Compliance Officer (authorized under DOE Order 451.IA), J bave made the following determination : ex, EA, EIS APPENDIX AND NUMBER: Description: 63.6 Siting, construction (or modification), operation. and decommissioning of facilities for indoor bench-scale research projects and conventional laboratory operations (for example, preparation of chemical standards and sample analysis):

296

DEPARTIlIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DI111!RJ.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DEPARTIlIENT OF ENERGY DEPARTIlIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DI111!RJ.llNATION Page I of2 RECIPIENT :The University of Georgia Research Foundation, Inc. STATE: GA PROJECT T ITLE; Development of bio-oil commodity fuel as a refinery feedstock from high impact algae biomass Funding Opportunity Announcement Number DE·FOA-OOOO686 Pro<:unment Instrument Number DE-EE0006067 NEPA Control Number elD Number GF0-0006067 -001 EE6067 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451. 1A), I have made the follo wi ng determination: ex, EA, EIS APPENDI X AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Information gathering (including, but not limited to, literature surveys, inventories, site visits, and

297

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETERl\llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

.**.* :. .**.* :. U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETERl\llNATION RECIPIENT:General Motors lLC PROJECT TITLE; High-Activity Dealloyed Cathode Catalysts Page 1 of2 STATE: MI fo'unding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-P$3608G098009 EEOOOO458 GFO-10-332 EE458 Based on my review oflhe information concC'rning tbe proposed action, as N[PA Compliance Officer (authorized under DOE Order 451.1A), I have made tbe following determination: ex, ":A, EIS APP .. ;N DIX AND NUMBER: Description: 83.6 Siting. construction (or modification), operation, and decommissioning of facilities for indoor bench-scale research projects and conventional laboratory operations (for example, preparation of chemical standards and sample analysis):

298

U.S. DEPARTIHENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DE~llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

aUl aUl , U.S. DEPARTIHENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DE~llNATION RECIPIENT: Hyundai America Technical Center, Inc. PROJECf TITLE: Hyundai FCEV Testing, Data Collection and Validation Fleet Page 1 of2 STATE: MI Funding Opportunity Announcement Number Pn)Curernent Instrument Number NEPA Control Number em Number DE-FOA-000062S DE-EEOOO5970 GFO-OO05970-OO1 G05970 Based on my review ortbe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Information gathering (including, but not limited 10, literature surveys, inventories, site visits, and

299

UNITED STATES ATOMIC ENERGY COMMISSION SPECIAL NUCLEAR MATERIAL LlCENSE  

Office of Legacy Management (LM)

' ' ,' ' .:,: ' ,' ,,.. : .-: .: .A,.. :. .:,: ' .' :l:. ,:.:,. ,. ."i i..' ./. ' . : :, *:..: ,.a~ :.. ,::;: ;#j ,,. .,.' ' : 8:;) ,,> ,' UNITED STATES ATOMIC ENERGY COMMISSION SPECIAL NUCLEAR MATERIAL LlCENSE pp.o-o\ 43 Licensee 1. Name spm%r ch+ti (hlqay 3. 2. Address i%si&t Building Kansas cay 5, ifissouri ~..--. 3. License No. .m4-329 I 4. Exp/rotion Date Sepikmber 30, I.962 -6. Special Nuclear:Material ~~~~SnrichedtoS~ I under this license ia the a-235 i.soto~p. one thoti (1ooo) kgs u-235 Contab$i in mani- etiched ta s$in ths U23.5 / isotope. -- 8. Authorized useFor i&e C' nwiC&. professing Of +ZXlXX enriohd IQ t0 s$-tifie u-235 isoi;ope bn, accordanoe 6th the procedures desczibed ii the, J.ic3x1m3~s ag@kations of Jme 22 andduly 28; 19%

300

DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETJ!R1..llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

tI .* tI .* ~1 u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETJ!R1..llNATION RECIPIENT:Cariisle Construction Materials Incorporated PROJECT TITLE: Extreme Balance of System Hardware Cost Reductions (BOS·X) Page 1 of2 STATE: PA Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-FOA-0000493 OE-EEOOO5435 GFO-OOO543S-Q01 0 Based on my review orlhe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI.IA), I have made the (ollowing detennination: ex, EA, EIS APPENDIX AND NUMBER: Description: A91nformation gatheri ng, analysis, and dissemination Information gathering (including, but nollimiled to, literature surveys, inventories, site visits, and audits). data analysis

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301

u.s. DEPARTMENT OF ENERGY EERE PROJECT MA,'MGEMENT CENTER NEPADETEru.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

'MGEMENT CENTER 'MGEMENT CENTER NEPADETEru.llNATION RECIPIENT: lnstitute for Sustainable Communities PROJECT TITLE : Intemationallndustrial Energy Efficiency Training and Deployment (lIEETD) Page 1 of2 STATE: VT Funding Opportunity Announcement Number PNKunment Instrument Number NEPA Control Number CID Number DE-FOA-OOOO531 OE-EEOOO5305 GF0-0005305-001 0 Based on my review of tbe information concerning tbe proposed action, as NEPA Compliance Officer (autborized undel'" DOE Order 4S1.1A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including , but not limited to, literature surveys, inventories, audits). data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies. analytical energy supply

302

EERE PROJECT MANAGEMENT CENTER NFPA DF1'l!Rl>llNATION RrCIPIENT:  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DEP * .\RThIFNT OF FNERGY DEP * .\RThIFNT OF FNERGY EERE PROJECT MANAGEMENT CENTER NFPA DF1'l!Rl>llNATION RrCIPIENT: Michigan Energy Office PROJECf TITLE: EERE loanITech Demo Program - Delphi Page 1 of2 STATE: MI Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA'{)()()()()S2 DE-EEOOOO166 GF()-(HX)()116-023 GOO Based on my review of the information concerning the proposed action, as NEPA Compliance Offictr (authorized under DOE Order 45I.lA), I have made the following determination: ex, EA, EIS APPENDIX AND NUM.BER: Description: 85.1 Actions to conserve energy. demonstrate potential energy conservation , and promote energy-efficiency that do nol increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

303

EERE PROJECT MANAGEMENT CDITER Nl!PA Dl!Tl!Rl\llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

... ... ~ . u.s DEPAR lENT OFl!NERG' EERE PROJECT MANAGEMENT CDITER Nl!PA Dl!Tl!Rl\llNATION Page 1 of2 RECIPIENT:Stanford University STATE: CA PROJECf TITLE: In·Situ X·Ray Analysis of Rapid Thermal Processing for Thin·FiI Solar Cells: Closing the Gap between Production and Laboratory Efficiency Funding Opportunity Announcement Number DE·FOA-0000654 Procurement Instrument Number DE·EE0005951 NEPA Control Number em Number GFQ-0005951·001 G05951 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI.IA), I have made the following determination: CX, EA, EIS APP~:NDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination 81.31 Installation or

304

Petrography and prediction of reservoir rock properties in the Sussex Sandstone, Powder River Basin, Wyoming  

E-Print Network (OSTI)

, and taken at room temperature. 100 90 KAOLINITE (OOIj 7 ~ A 60 6 ~ 50 KAOLINITE IOOZI 5 55 5 WOODS EM, IRE I C 0 0 (25'0 5 I -2 10 60 , (6 II I 51 ll QUARTZ I 425 A 4 5AARUW 165ZAt CHLORITE (OOS) 471 A ILL I TE (OOZI 4 98 A SIIIECT TE...PETPOGJVPHY AND PREDICTION OF 1'L'SERVO IR R(. &CJ; PROPER IFS IN 1HE SIJSSFX SAvDSTOXE, POXDEJ& RIVER BASIM, EYOMIiA A Thesis by RICIIARD HOYT SHIRLEY JR. Submitted to the Graduate College of Texas A(M University in partial fulfillment...

Shirley, Richard Hoyt

1977-01-01T23:59:59.000Z

305

CONVENTIONAL COTTON RESPONSE TO LOW RATES OF GLYPHOSATE J.W. Keeling and L.L. Lyon  

E-Print Network (OSTI)

CONVENTIONAL COTTON RESPONSE TO LOW RATES OF GLYPHOSATE J.W. Keeling and L.L. Lyon Texas acres of upland cotton planted in the United States were Roundup Ready varieties. Because non-Roundup Ready cotton is often planted adjacent to Roundup Ready cotton, the potential for herbicide drift

Mukhtar, Saqib

306

Wilson Bull., 11l(l), 1999, pp. 100-104 EFFECTS OF WIND TURBINES ON UPLAND NESTING BIRDS IN  

E-Print Network (OSTI)

Wilson Bull., 11l(l), 1999, pp. 100-104 EFFECTS OF WIND TURBINES ON UPLAND NESTING BIRDS in southwestern Minnesota to determine the relative influence of wind turbines on overall densities of upland transects that were placed along wind turbine strings within three CRP fields and in three CRP fields

307

Like many techies, I've been wonder-ing what changes we'll see in the  

E-Print Network (OSTI)

Like many techies, I've been wonder- ing what changes we'll see in the Internet in the coming years. In doing so, I look at the Internet in the broad sense, at the level of applications and uses, but without conceptualization of the Internet is based on the interactions--between people and between people and computers

308

65 6 1980 871-88:J BORIS SKET and TnoMAS M. lLlFFE  

E-Print Network (OSTI)

65 6 1980 871-88:J BORIS SKET and TnoMAS M. lLlFFE Bermuda Biological Station, and Institut za. Introduction 871 872 872 872 873 873 873 873 875 875 877 877 878 880 880 880 The Bermuda Islands consist

Iliffe, Thomas M.

309

Human Cathelicidin LL-37 Resistance and Increased Daptomycin MIC in Methicillin-Resistant Staphylococcus aureus Strain USA600 (ST45)  

E-Print Network (OSTI)

-Resistant Staphylococcus aureus Strain USA600 (ST45) Are Associated with Increased Mortality in a Hospital Setting George) USA600 has been associated with increased patient mortality. We found that USA600 MRSA exhibited significantly increased resistance to human cathelicidin LL-37 killing and daptomycin MIC creep compared to non-USA

Nizet, Victor

310

The nature of the Heart Mountain fault in the vicinity of Dead Indian Hill, Park County, Wyoming  

E-Print Network (OSTI)

of Madison cap hills of Chugwater (Triassic redbeds) to Carter Mountain on the south where he mapped Madison resting on Fort Union. The eastern- most exposure, Heart Mountain itself, Dake described as consisting of several hundred feet of Madison...THE NATURE OF THE HEART MOUNTAIN FAULT IN THE VICINITY OF DEAD INDIAN HILL, PARK COUNTY, WYOMING A Thesis by EUGENE DONALD SUNGY Submitted to the Graduate College of Texas A&M University in partial fulfillment of the requirement...

Sungy, Eugene Donald

1977-01-01T23:59:59.000Z

311

Class I cultural resource overview for oil shale and tar sands areas in Colorado, Utah and Wyoming.  

SciTech Connect

In August 2005, the U.S. Congress enacted the Energy Policy Act of 2005, Public Law 109-58. In Section 369 of this Act, also known as the 'Oil Shale, Tar Sands, and Other Strategic Unconventional Fuels Act of 2005', Congress declared that oil shale and tar sands (and other unconventional fuels) are strategically important domestic energy resources that should be developed to reduce the nation's growing dependence on oil from politically and economically unstable foreign sources. The Bureau of Land Management (BLM) is developing a Programmatic Environmental Impact Statement (PEIS) to evaluate alternatives for establishing commercial oil shale and tar sands leasing programs in Colorado, Wyoming, and Utah. This PEIS evaluates the potential impacts of alternatives identifying BLM-administered lands as available for application for commercial leasing of oil shale resources within the three states and of tar sands resources within Utah. The scope of the analysis of the PEIS also includes an assessment of the potential effects of future commercial leasing. This Class I cultural resources study is in support of the Draft Oil Shale and Tar Sands Resource Management Plan Amendments to Address Land Use Allocations in Colorado, Utah, and Wyoming and Programmatic Environmental Impact Statement and is an attempt to synthesize archaeological data covering the most geologically prospective lands for oil shale and tar sands in Colorado, Utah, and Wyoming. This report is based solely on geographic information system (GIS) data held by the Colorado, Utah, and Wyoming State Historic Preservation Offices (SHPOs). The GIS data include the information that the BLM has provided to the SHPOs. The primary purpose of the Class I cultural resources overview is to provide information on the affected environment for the PEIS. Furthermore, this report provides recommendations to support planning decisions and the management of cultural resources that could be impacted by future oil shale and tar sands resource development.

O'Rourke, D.; Kullen, D.; Gierek, L.; Wescott, K.; Greby, M.; Anast, G.; Nesta, M.; Walston, L.; Tate, R.; Azzarello, A.; Vinikour, B.; Van Lonkhuyzen, B.; Quinn, J.; Yuen, R.; Environmental Science Division

2007-11-01T23:59:59.000Z

312

Property description and fact-finding report for NPR-3 Natrona County, Wyoming. Addendum to 22 August 1996 study of alternatives for future operations of the naval petroleum and oil shale reserves NPR-3  

SciTech Connect

The U.S. Department of Energy has asked Gustavson Associates, Inc. to serve as an Independent Petroleum Consultant under contract DE-AC01-96FE64202. This authorizes a study and recommendations regarding future development of Naval Petroleum Reserve No. 3 (NPR-3) in Natrona County, Wyoming. The report that follows is the Phase I fact-finding and property description for that study. The United States of America owns 100 percent of the mineral rights and surface rights in 9,321-acre NPR-3. This property comprises the Teapot Dome oil field and related production, processing and other facilities. Discovered in 1914, this field has 632 wells producing 1,807 barrels of oil per day. Production revenues are about $9.5 million per year. Remaining recoverable reserves are approximately 1.3 million barrels of oil. Significant plugging and abandonment (P&A) and environmental liabilities are present.

NONE

1997-05-01T23:59:59.000Z

313

An Approach to Mapping of Shallow Petroleum Reservoirs Using Integrated Conventional 3D and Shallow P- and SH-Wave Seismic Reflection Methods at Teapot Dome Field in Casper, Wyoming.  

E-Print Network (OSTI)

??Using the famous Teapot Dome oil field in Casper, Wyoming, USA as a test case, we demonstrate how high-resolution compressional (P) and horizontally polarized shear (more)

Okojie-Ayoro, Anita Onohuome 1981-

2007-01-01T23:59:59.000Z

314

ADAPTIVE MANAGEMENT AND PLANNING MODELS FOR CULTURAL RESOURCES IN OIL & GAS FIELDS IN NEW MEXICO AND WYOMING  

SciTech Connect

This report summarizes activities that have taken place in the last six (6) months (January 2005-June 2005) under the DOE-NETL cooperative agreement ''Adaptive Management and Planning Models for Cultural Resources in Oil and Gas Fields, New Mexico and Wyoming'' DE-FC26-02NT15445. This project examines the practices and results of cultural resource investigation and management in two different oil and gas producing areas of the United States: southeastern New Mexico and the Powder River Basin of Wyoming. The project evaluates how cultural resource investigations have been conducted in the past and considers how investigation and management could be pursued differently in the future. The study relies upon full database population for cultural resource inventories and resources and geomorphological studies. These are the basis for analysis of cultural resource occurrence, strategies for finding and evaluating cultural resources, and recommendations for future management practices. Activities can be summarized as occurring in either Wyoming or New Mexico. Gnomon as project lead, worked in both areas.

Peggy Robinson

2005-07-01T23:59:59.000Z

315

Microsoft Word - LL_Report_8-30-13rev.docx  

NLE Websites -- All DOE Office Websites (Extended Search)

2 2 6---30, 2 013. The p reamplifiers o f t he N ational I gnition F acility a re t he f irst s tep i n i ncreasing t he e nergy o f laser b eams a s t hey m ake t heir way toward the target chamber. Lawrence Livermore's N ational I gnition F acility ( NIF) recently focused a ll 1 92 o f i ts ultrapowerful l aser b eams o n a t iny d euterium---tritium f illed c apsule. I n t he n anoseconds (millionths o f a s econd) t hat f ollowed, t he c apsule i mploded a nd r eleased a n eutron y ield o f nearly 8 ,000 j oules o f n eutron e nergy --- --- a pproximately t hree t imes N IF's p revious n eutron y ield record f or c ryogenic i mplosions. The p rimary m ission o f N IF i s t o p rovide e xperimental i nsight a nd d ata f or the N ational N uclear Security A dministration's s cience---based s tockpile s tewardship p rogram. T he e xperiment

316

Wyoming Natural Gas in Underground Storage (Base Gas) (Million Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

Base Gas) (Million Cubic Feet) Base Gas) (Million Cubic Feet) Wyoming Natural Gas in Underground Storage (Base Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 31,205 31,205 31,205 31,205 31,353 31,205 31,501 31,638 31,735 31,754 30,652 30,652 1991 34,651 34,651 34,651 34,651 34,651 34,651 34,651 34,651 34,651 34,651 34,651 34,651 1992 59,130 59,130 59,130 59,130 59,130 59,130 59,130 59,130 59,130 59,130 59,127 59,382 1993 59,382 59,382 59,382 59,382 59,382 59,382 59,382 59,427 59,427 59,427 60,746 60,746 1994 60,746 60,746 60,746 60,746 60,746 60,746 60,746 60,746 60,746 60,746 60,782 60,782 1995 60,782 60,782 60,782 60,782 60,782 60,782 60,782 60,782 60,782 60,782 60,782 60,782

317

Wyoming Natural Gas in Underground Storage - Change in Working Gas from  

U.S. Energy Information Administration (EIA) Indexed Site

Million Cubic Feet) Million Cubic Feet) Wyoming Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -525 -558 -653 -568 -437 -289 -114 76 566 493 1,000 1,188 1991 482 1,359 1,901 1,461 980 1,611 1,437 1,173 -147 -1,122 -1,494 -1,591 1992 -23,715 -25,067 -25,923 -26,121 -26,362 -27,771 -28,829 -30,471 -30,725 -31,860 -31,627 -33,317 1993 -9,841 -10,219 -9,773 -9,196 -8,590 -7,100 -6,215 -4,763 -4,433 -2,461 -3,475 -1,939 1994 834 524 1,455 1,850 2,436 1,126 195 143 389 396 2,707 3,074 1995 723 2,101 128 -1,538 -2,661 -1,884 -1,303 -1,135 -665 -416 -680 -807 1996 -1,225 -2,881 -2,568 -1,148 1,099 1,302 1,744 832 -482 -1,417 -3,593 -5,063

318

Characterization and fluid flow simulation of naturally fractured Frontier sandstone, Green River Basin, Wyoming  

SciTech Connect

Significant gas reserves are present in low-permeability sandstones of the Frontier Formation in the greater Green River Basin, Wyoming. Successful exploitation of these reservoirs requires an understanding of the characteristics and fluid-flow response of the regional natural fracture system that controls reservoir productivity. Fracture characteristics were obtained from outcrop studies of Frontier sandstones at locations in the basin. The fracture data were combined with matrix permeability data to compute an anisotropic horizontal permeability tensor (magnitude and direction) corresponding to an equivalent reservoir system in the subsurface using a computational model developed by Oda (1985). This analysis shows that the maximum and minimum horizontal permeability and flow capacity are controlled by fracture intensity and decrease with increasing bed thickness. However, storage capacity is controlled by matrix porosity and increases linearly with increasing bed thickness. The relationship between bed thickness and the calculated fluid-flow properties was used in a reservoir simulation study of vertical, hydraulically-fractured and horizontal wells and horizontal wells of different lengths in analogous naturally fractured gas reservoirs. The simulation results show that flow capacity dominates early time production, while storage capacity dominates pressure support over time for vertical wells. For horizontal wells drilled perpendicular to the maximum permeability direction a high target production rate can be maintained over a longer time and have higher cumulative production than vertical wells. Longer horizontal wells are required for the same cumulative production with decreasing bed thickness.

Harstad, H. [New Mexico Tech, Socorro, NM (United States); Teufel, L.W.; Lorenz, J.C.; Brown, S.R. [Sandia National Labs., Albuquerque, NM (United States). Geomechanics Dept.

1996-08-01T23:59:59.000Z

319

Hanna, Wyoming underground coal gasification data base. Volume 3. The Hanna II, Phase I field test  

SciTech Connect

This report is part of a seven-volume series on the Hanna, Wyoming, underground coal gasification field tests. Volume 1 is a summary of the project, and each of Volumes 2 through 6 describes a particular test. Volume 7 is a compilation of all the data for the tests in Volumes 2 through 6. Hanna II, Phase I was conducted during the spring and summer of 1975, at a site about 700 feet up dip (to the southwest) of the Hanna I test. The test was conducted in two stages - Phase IA and IB. Phase IA consisted of linking and gasification operations between Wells 1 and 3 and Phase IB of linking from the 1-3 gasification zone to Well 2, followed by a short period of gasification from Well 2 to Well 3 over a broad range of air injection rates, in order to determine system turndown capabilities and response times. This report covers: (1) site selection and characteristics; (2) test objectives; (3) facilities description; (4) pre-operational testing; (5) test operations summary; and (6) post-test activity. 7 refs., 11 figs., 8 tabs.

Bartke, T.C.; Fischer, D.D.; King, S.B.; Boyd, R.M.; Humphrey, A.E.

1985-08-01T23:59:59.000Z

320

Final environmental statement related to the Western Nuclear, Inc. , Split Rock Uranium Mill (Fremont County, Wyoming)  

SciTech Connect

The proposed action is the renewal of Source Material License SUA-56 (with amendments) issued to Western Nuclear, Inc. (WNI), for the operation of the Split Rock Uranium Mill near Jeffrey City and the Green Mountain Ion-Exchange Facility, both in Fremont County, Wyoming. The license also permits possession of material from past operations at four ancillary facilities in the Gas Hills mining area - the Bullrush, Day-Loma, Frazier-Lamac, and Rox sites (Docket No. 40-1162). However, although heap leaching operations were previously authorized at Frazier-Lamac, there has never been any processing of material at this site. The Split Rock mill is an acid-leach, ion-exchange and solvent-extraction uranium-ore processing mill with a design capacity of 1540 MT (1700 tons) of ore per day. WNI has proposed by license amendment request to increase the storage capacity of the tailings ponds in order to permit the continuation of present production rates of U/sub 3/O/sub 8/ through 1996 using lower-grade ores.

Not Available

1980-02-01T23:59:59.000Z

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321

The sequence stratigraphy of the latest Cretaceous sediments of northern Wyoming: The interplay of tectonic and eustatic controls on foreland basin sedimentation  

SciTech Connect

A west-east chronostratigraphic correlation has been made of the latest Cretaceous sediments of northern Wyoming. Five sections from Jackson Hole to Red Bird have been dated magnetostratigraphically (C34N-C26R) and radiometrically (81-68 Ma), and integrated with the ammonite biostratigraphy of the Niobrara and Pierre Shale. Four major sequence surfaces have been identified in section and the time missing within the unconformities has been measured and traced laterally. These bounding unconformities define six alloformations. The lowest straddles the C34N/C33R chronic boundary and contains the Cody, Telegraph Creek and Eagle Fms. The second ranges from the mid- to upper part of C33N of C32R and contains the Claggett and Judith River/Mesaverde Fms. The third (C32R ) is the Teapot Sandstone Member of the Mesaverde Fm. The fourth extends from the lower to upper part of C32N or to mid-C31R and includes the Bearpaw Shale and Meeteetse Fm. The fifth extends from C31N to C30N or C29N and includes the Harebell and Lance Fms. The base of the uppermost alloformation has been identified within C26R in the uppermost alloformation has been identified within C26R in the lowermost Fort Union. The unconformable surfaces are angular adjacent to the Sevier Thrust Belt but form paraconformities or hiatuses in the marine units to the east. The unconformities are eustatically controlled throughout the Campanian, but become tectonically driven in the Maastrichtian with the onset of rapid foredeep subsidence in Jackson Hole, and forebulge uplift in the Bighorn and Wind River Basin region which correlates exactly to the rapid regression of the Bearpaw Sea from the area in the range of Baculites clinolobatus.

Hicks, J.F. (Yale Univ., New Haven, CT (United States). Dept. of Geology); Tauxe, L. (Scripps Institution of Oceanography, LaJolla, CA (United States))

1992-01-01T23:59:59.000Z

322

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DI!l'ERJ\.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DI!l'ERJ\.llNATION DI!l'ERJ\.llNATION RECIPIENT:University of Northern Iowa PROJECf TITLE: National Agriculture Based Lubricants Center Page 1 of2 STATE: IA Funding Opportunity Announcement Number Pnx:urement Instrument Number NEPA Control Number elD Number COP G066038 GFO-G08B038-001 G086038 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order451 .1A),1 have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited 10, literature surveys. inventories, audits). data analysis (including computer modeling). document preparation (such as conceptual design or feasibility studies, analytical energy supply and demand studies). and dissemination (including, but not limited 10. document mailings, publication. and dlstnbution:

323

u.s DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETl!lU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

NEPA DETl!lU.llNATION NEPA DETl!lU.llNATION Page 1 of3 RECIPIENT:Cal Poly Corporation STATE: CA PROJECT TITLE: Recycling of Nutrients and Water in Algal Biofuels Production Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number elO Number 0000615 EEOOO5994 GF0-0005994-Q01 GO Based on my review urthe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 45I.1A), I have made the following determination: ex, EA, [IS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Information gathering (induding, but not limited to, literature surveys, inventories, site visits, and audits). data analysis (induding. but not limited to. computer modeling), document preparation

324

u.s. DEPARThIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETJ1R}..llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DETJ1R}..llNATION DETJ1R}..llNATION Page l of3 RECIPIENT:AJeutian Pribilof Islands Association STATE: AI< PROJECT TITLE: Feasibility of Tidal and Ocean Current Energy in False Pass, Aleutian Islands, AK funding Opportunity Announcement Number DE·FQA-0000424 Procurement Instrument Number DE-EEOOO5624 NEPA Coutrol Number em Number GFO-OOO5624-001 Based on my uview of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI.IA),1 have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination 65.25 Small-scale renewable energy research and development and pilot projects in aquatic environments Rational for determination: Information gathering (including, but not limited 10, literature surveys, inventories, site visits, and audits),

325

u.s. DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NFPA DE'fER],llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DE'fER],llNATION DE'fER],llNATION RECIPIENT:Oklahoma Department of Commerce PROJECf TITLE : OKLAHOMA SEP ANNUAL - PY12 Page I on STATE: OK Funding Opportunity Announcement Number Procurement Inst.-ument Number NEPA Control Number CIO Number DE-FOA-OOOO643 NT43203 GFQ-0043203-Q01 Based on my review oflhe Information cODccming the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the following determination : ex, EA, EIS APPENDIX AND NUMBER: Description: A11 Technical advice and assistance to organizations A9 Information gathering, analysis, and dissemination Rational for detennination: Technical advice and planning assistance to international, national, state, and local organizations. Information gathering (induding. but not limited to, literature surveys, inventories, site visits, and

326

u.s. DI!PARThIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NJ!PA DETEJU,llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

MANAGEMENT CENTER MANAGEMENT CENTER NJ!PA DETEJU,llNATION RECIPIENT :Ocean Renewable Power Company, LlC Page I of2 STATE: AK PROJECf TITLE: Acoustic Monitoring of Beluga Whale Interactions withCook Inlet Tidal Energy Project Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA-OOOOO69 DE-EE0002657 GFO-O002657-002 G02657 Based on my review oftbe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: B3.3 Research related to Field and laboratory research, inventory, and information collection activities that are directly conservation of fish, wildlife, related to the conservation of fish and wildlife resources or to the protection of cultural

327

DEPARTMENT OF ENERGY EERE PROJECT MANAGEMENT CENTER N1!PA Dl!1'ElU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

N1!PA Dl!1'ElU.llNATION N1!PA Dl!1'ElU.llNATION RECIPIENT:City of Perth Amboy PROJECT TITLE : Municipal Complex Solar Power Project Page 1 of2 STATE: NJ Funding Opportunity Announl::ement Number Procurement Instrument Number NEPA Control Number elD Number Congressionally Directed Project DE· EEOOO3172 GF0-0003172..Q01 EE3172 Based on my review of the information concerning the proposed action, as N[PA Compliance Officer (authoro.ed under DOE Order451.1A),1 have made tbe following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 8 5.1 Adions to oonserve energy, demonstrate potential energy conservation, and promote energy-efficiency that do not increase the indoor concentratIOns of potentially harmful substances. These actions may involve financial and technical

328

U.S. DEPARTMENT OFENl!RGY EERE PROJECT MANAGEMENT CENTER NEPA DE1'FIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

NEPA DE1'FIU.llNATION NEPA DE1'FIU.llNATION RECIPIENT:Colorado School of Mines Page 1 of2 STATE: CO PROJECf TITLE: Hot Carrier Collection in Thin Film Silicon with Tailored Nanocrystalline/Amorphous Structure Funding Opportunity Announcement Numbu Procurement Instrument Number NEPA Control Number elD Number OE-FOA-OOOO387 DE-EE0005326 GF0-0005326-001 0 Based on my review oftbe Information conccming the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the follo",," ing determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 8 3.15 Small-scale i ndoor research and development projects usIng nanascate materials Siting, construction, modrficabon, operation, and decommissioning of facilities for indoor small-scale research and

329

Project RU LlSON COPY ON-SITE RADIOLOGICAL PROGRAMS DURING REENTRY DISILLING THROUGH PRODUCTION TESTING  

Office of Legacy Management (LM)

RU LlSON RU LlSON COPY ON-SITE RADIOLOGICAL PROGRAMS DURING REENTRY DISILLING THROUGH PRODUCTION TESTING FINAL REPOAT EBERLlNE INSTRUMENT CORPORATION Santa Fe, New Mexico Date Published - December 1973 PREPARED FOR THE U. S. ATOMIC ENERGY COMMISSION N E V A D A OPERATIONS OFFICE UNDER CONTRACT NO. AT(26-11-294 DISCLAIMER Portions of this document may be illegible in electronic image products. Images are produced from the best available original document. Project RULISON ON-S1l'E RADIOLOGICAL PROGRAMS D U R I N G R E E N T R Y D R I L L I N G THROUGH PRODUCTION TESTING \ F I N A L REPORT EBERLINE INSTRUMENT CORPORATION . Santa Fe, New Mexico 1 Date Published - December 1973 NEVADA OPERATIONS OFFICE . UNDER CONTRACT NO. AT(26-11-294 NOTICE ~~~~ This report was prepared as an account of work sponsored by the United

330

Development of Ultra-low Platinum Alloy C th d C t l t f PEM F l C ll  

E-Print Network (OSTI)

Fuel Cells 2010 DOE Hydrogen Program Fuel Cell Project Kick-Off P I : Branko N PopovP. I.: Branko N of the catalyst layers which increases the cell resistance. ¾¾ Pt catalyst accelerates the rate of carbonDevelopment of Ultra-low Platinum Alloy C th d C t l t f PEM F l C ll Cathode Catalyst for PEM

331

Preparation and structural characterization of Os2Cl4(chp)2(L) (chp = 6-chloro-2-hydroxypridinato; L = water, pyridine): a new class of M2X4(LL)2 complexes possessing an eclipsed conformation where LL is a substituted hydroxypyridinato ligand  

Science Journals Connector (OSTI)

Preparation and structural characterization of Os2Cl4(chp)2(L) (chp = 6-chloro-2-hydroxypridinato; L = water, pyridine): a new class of M2X4(LL)2 complexes possessing an eclipsed conformation where LL is a substituted hydroxypyridinato ligand ...

F. Albert Cotton; Kim R. Dunbar; Marek Matusz

1986-05-01T23:59:59.000Z

332

Wyoming Natural Gas in Underground Storage - Change in Working Gas from  

U.S. Energy Information Administration (EIA) Indexed Site

Percent) Percent) Wyoming Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 0.9 2.6 3.7 2.8 1.8 3.0 2.5 2.0 -0.2 -1.8 -2.5 -2.7 1992 -43.8 -46.9 -48.5 -48.7 -48.6 -49.4 -49.4 -50.6 -50.1 -51.9 -53.3 -58.2 1993 -32.4 -36.0 -35.5 -33.5 -30.9 -25.0 -21.0 -16.0 -14.5 -8.3 -12.5 -8.1 1994 4.1 2.9 8.2 10.1 12.7 5.3 0.8 0.6 1.5 1.5 11.2 14.0 1995 3.4 11.3 0.7 -7.6 -12.3 -8.4 -5.5 -4.5 -2.5 -1.5 -2.5 -3.2 1996 -5.5 -13.9 -13.3 -6.2 5.8 6.3 7.8 3.5 -1.9 -5.2 -13.7 -20.9 1997 -28.6 -33.1 -34.9 -38.1 -41.3 -35.8 -27.4 -18.7 -11.1 -9.6 -6.5 -5.2 1998 -4.6 1.6 0.9 -10.6 -7.1 2.5 -1.3 -4.6 -3.6 0.4 12.4 16.6

333

Annotated bibliography of selected references on shoreline barrier island deposits with emphasis on Patrick Draw Field, Sweetwater County, Wyoming  

SciTech Connect

This bibliography contains 290 annotated references on barrier island and associated depositional environments and reservoirs. It is not an exhaustive compilation of all references on the subject, but rather selected papers on barrier islands, and the depositional processes of formation. Papers that examine the morphology and internal architecture of barrier island deposits, exploration and development technologies are emphasized. Papers were selected that aid in understanding reservoir architecture and engineering technologies to help maximize recovery efficiency from barrier island oil reservoirs. Barrier islands from Wyoming, Montana and the Rocky Mountains basins are extensively covered.

Rawn-Schatzinger, V.; Schatzinger, R.A.

1993-07-01T23:59:59.000Z

334

ADAPTIVE MANAGEMENT AND PLANNING MODELS FOR CULTURAL RESOURCES IN OIL AND GAS IN NEW MEXICO AND WYOMING  

SciTech Connect

This report contains a summary of activities of Gnomon, Inc. and five sub-contractors that have taken place during the first six months (January 1, 2003--June 30, 2003) under the DOE-NETL cooperative agreement: ''Adaptive Management and Planning Models for Cultural Resources in Oil & Gas Fields in New Mexico and Wyoming'', DE-FC26-02NT15445. Gnomon, Inc. and all five (5) subcontractors have agreed on a process for the framework of this two-year project. They have also started gathering geomorphological information and entering cultural resource data into databases that will be used to create models later in the project. This data is being gathered in both the Power River Basin of Wyoming, and the Southeastern region of New Mexico. Several meetings were held with key players in this project to explain the purpose of the research, to obtain feedback and to gain support. All activities have been accomplished on time and within budget with no major setbacks.

Peggy Robinson

2003-07-25T23:59:59.000Z

335

3-D RESERVOIR AND STOCHASTIC FRACTURE NETWORK MODELING FOR ENHANCED OIL RECOVERY, CIRCLE RIDGE PHOSPHORIA/TENSLEEP RESERVOIR, WIND RIVER RESERVATION, ARAPAHO AND SHOSHONE TRIBES, WYOMING  

SciTech Connect

This report describes the results made in fulfillment of contract DE-FG26-00BC15190, ''3-D Reservoir and Stochastic Fracture Network Modeling for Enhanced Oil Recovery, Circle Ridge Phosphoria/Tensleep Reservoir, Wind River Reservation, Arapaho and Shoshone Tribes, Wyoming''. The goal of this project is to improve the recovery of oil from the Tensleep and Phosphoria Formations in Circle Ridge Oilfield, located on the Wind River Reservation in Wyoming, through an innovative integration of matrix characterization, structural reconstruction, and the characterization of the fracturing in the reservoir through the use of discrete fracture network models. Fields in which natural fractures dominate reservoir permeability, such as the Circle Ridge Field, often experience sub-optimal recovery when recovery processes are designed and implemented that do not take advantage of the fracture systems. For example, a conventional waterflood in a main structural block of the Field was implemented and later suspended due to unattractive results. It is estimated that somewhere less than 20% of the OOIP in the Circle Ridge Field have been recovered after more than 50 years' production. Marathon Oil Company identified the Circle Ridge Field as an attractive candidate for several advanced IOR processes that explicitly take advantage of the natural fracture system. These processes require knowledge of the distribution of matrix porosity, permeability and oil saturations; and understanding of where fracturing is likely to be well-developed or poorly developed; how the fracturing may compartmentalize the reservoir; and how smaller, relatively untested subthrust fault blocks may be connected to the main overthrust block. For this reason, the project focused on improving knowledge of the matrix properties, the fault block architecture and to develop a model that could be used to predict fracture intensity, orientation and fluid flow/connectivity properties. Knowledge of matrix properties was greatly extended by calibrating wireline logs from 113 wells with incomplete or older-vintage logging suites to wells with a full suite of modern logs. The model for the fault block architecture was derived by 3D palinspastic reconstruction. This involved field work to construct three new cross-sections at key areas in the Field; creation of horizon and fault surface maps from well penetrations and tops; and numerical modeling to derive the geometry, chronology, fault movement and folding history of the Field through a 3D restoration of the reservoir units to their original undeformed state. The methodology for predicting fracture intensity and orientation variations throughout the Field was accomplished by gathering outcrop and subsurface image log fracture data, and comparing it to the strain field produced by the various folding and faulting events determined through the 3D palinspastic reconstruction. It was found that the strains produced during the initial folding of the Tensleep and Phosphoria Formations corresponded well without both the orientations and relative fracture intensity measured in outcrop and in the subsurface. The results have led to a 15% to 20% increase in estimated matrix pore volume, and to the plan to drill two horizontal drain holes located and oriented based on the modeling results. Marathon Oil is also evaluating alternative tertiary recovery processes based on the quantitative 3D integrated reservoir model.

Paul La Pointe; Jan Hermanson; Robert Parney; Thorsten Eiben; Mike Dunleavy; Ken Steele; John Whitney; Darrell Eubanks; Roger Straub

2002-11-18T23:59:59.000Z

336

3-D Reservoir and Stochastic Fracture Network Modeling for Enhanced Oil Recovery, Circle Ridge Phosphoria/Tensleep Reservoir, and River Reservation, Arapaho and Shoshone Tribes, Wyoming  

SciTech Connect

The goal of this project is to improve the recovery of oil from the Circle Ridge Oilfield, located on the Wind River Reservation in Wyoming, through an innovative integration of matrix characterization, structural reconstruction, and the characterization of the fracturing in the reservoir through the use of discrete fracture network models.

La Pointe, Paul; Parney, Robert; Eiben, Thorsten; Dunleavy, Mike; Whitney, John; Eubanks, Darrel

2002-09-09T23:59:59.000Z

337

Observational evidence for composite grains in an AGB outflow: MgS in the extreme carbon star LL Peg  

E-Print Network (OSTI)

The broad 30 \\mu m feature in carbon stars is commonly attributed to MgS dust particles. However, reproducing the 30 \\mu m feature with homogeneous MgS grains would require much more sulfur relative to the solar abundance. Direct gas-phase condensation of MgS occurs at a low efficiency. Precipitation of MgS on SiC precursor grains provides a more efficient formation mechanism, such that the assumption of homogeneous MgS grains may not be correct. Using a Monte Carlo-based radiative transfer code, we aim to model the 30 \\mu m feature of the extreme carbon star LL Peg with MgS dust particles. We find that for LL Peg this modeling is insensitive to the unknown MgS optical properties at \\lambda solar abundance of sulfur, thereby resolving the reported MgS mass problem. We conclude that MgS is a valid candidate to be the carrier of the 3...

Lombaert, R; de Koter, A; Decin, L; Min, M; Smolders, K; Mutschke, H; Waters, L B F M

2012-01-01T23:59:59.000Z

338

ADAPTIVE MANAGEMENT AND PLANNING MODELS FOR CULTURAL RESOURCES IN OIL & GAS FIELDS IN NEW MEXICO AND WYOMING  

SciTech Connect

This report contains a summary of activities of Gnomon, Inc. and five subcontractors that have taken place during the first six months of 2004 (January 1, 2004-June 30, 2004) under the DOE-NETL cooperative agreement: ''Adaptive Management and Planning Models for Cultural Resources in Oil & Gas Fields in New Mexico and Wyoming'', DE-FC26-02NT15445. Although Gnomon and all five subcontractors completed tasks during these six months, most of the technical experimental work was conducted by the subcontractor, SRI Foundation (SRIF). SRIF created a sensitivity model for the Azotea Mesa area of southeastern New Mexico that rates areas as having a very good chance, a good chance, or a very poor chance of containing cultural resource sites. SRIF suggested that the results of the sensitivity model might influence possible changes in cultural resource management (CRM) practices in the Azote Mesa area of southeastern New Mexico.

Peggy Robinson

2004-07-01T23:59:59.000Z

339

ADAPTIVE MANAGEMENT AND PLANNING MODELS FOR CULTURAL RESOURCES IN OIL & GAS FIELDS IN NEW MEXICO AND WYOMING  

SciTech Connect

This report contains a summary of activities of Gnomon, Inc. and five subcontractors that have taken place during the second six months (July 1, 2003-December 31, 2003) under the DOE-NETL cooperative agreement: ''Adaptive Management and Planning Models for Cultural Resources in Oil & Gas Fields in New Mexico and Wyoming'', DE-FC26-02NT15445. Although Gnomon and all five subcontractors completed tasks during these six months, most of the technical experimental work was conducted by the subcontractor, SRI Foundation (SRIF). SRIF created a sensitivity model for the Loco Hills area of southeastern New Mexico that rates areas as having a very good chance, a good chance, or a very poor chance of containing cultural resource sites. SRIF suggested that the results of the sensitivity model might influence possible changes in cultural resource management (CRM) practices in the Loco Hills area of southeastern New Mexico.

Peggy Robinson

2004-01-01T23:59:59.000Z

340

U.S. DEPARTMENT OF l!Nl!RGY EERE PROJECT MANAGEMENT CENTER Nl!PA DETl!la.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Nl!PA DETl!la.llNATION Nl!PA DETl!la.llNATION RECIPIENT:lmpact Technologies llC PROJECf TITLE : Deep Geothermal Drilling using Millimeter Wave Technology Page 1 of2 STATE: OK Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA-OOOOS22 DE-EEOOO5504 GFO-OOO5504-OO1 G05504 Based on my review or lhe infonnation concerning the proposed action, as NEPA Compliance OtrlCCf (authorized unde r DOE OTdu451.IA), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Information gathering (induding. but not limited to. literature surveys, inventories, site visits, and audits), data analysis (induding. but not limited 10, computer modeling), document preparation (induding. bul nollimited to, conceptual design,

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While these samples are representative of the content of NLEBeta,
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341

Surface Science 175 (1986) 215-225 North-Holland, Amsterdam  

E-Print Network (OSTI)

-Tropsch, and ammonia synthesis. The penetration of hydrogen into the bulk causing embrittlement of materialsSurface Science 175 (1986) 215-225 North-Holland, Amsterdam 215 KINETICS OF HYDROGEN ABSORPTION The kinetics of hydrogen absorption by Pd(ll0) have been measured as a function of impurity sulfur coverage

Goodman, Wayne

342

Geohydrology of bedrock aquifers in the Northern Great Plains in parts of Montana, North Dakota, South Dakota, and Wyoming  

SciTech Connect

Development of energy-related resources in the northern Great Plains of the US will require large quantities of ground water. Because Montana, North Dakota, and Wyoming are semiarid, the primary local sources of nonappropriated water are the deep bedrock aquifers of Paleozoic and Mesozoic age. The US Geological Survey undertook a 4-year interdisciplinary study that has culminated in a digital-simulation model of the regional flow system and incorporates the results of geochemical, hydrologic, and geologic studies. Rocks of Paleozoic and Mesozoic age form at least five artesian aquifers that are recharged in the mountainous areas of Montana, South Dakota, and Wyoming. The aquifers extend for more than 600 mi to discharge areas in the northeastern part of North Dakota and in Manitoba. In general, the direction of flow in each aquifer is east to northeast, but flow is deflected to the north and south around the Williston basin. Flow through the Williston basin is restricted because of brine (200,000-350,000 mg/l), halite beds, geologic structures, and decreased permeability of rocks in the deeper parts of the basin. Fracture systems and lineaments transverse the entire area and act either as conduits or as barriers to ground-water flow, depending on their hydrogeologic and geochemical history. Vertical leakage from the aquifers is restricted by shale with low permeability, by halite beds, and by stratigraphic traps or low-permeability zones associated with petroleum accumulations. However, interaquifer leakage appears to occur through and along some of the major lineaments and fractures. Interaquifer leakage may be a major consideration in determining the quality of water produced from wells.

Downey, J.S.

1986-01-01T23:59:59.000Z

343

U.S DEPARTMENT OFl!NllRGY EERE PROJ ECT MANAG EMENT CENTER NEPA D:E=llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

S DEPARTMENT OFl!NllRGY S DEPARTMENT OFl!NllRGY EERE PROJ ECT MANAG EMENT CENTER NEPA D:E=llNATION R[CIPIENT: Scientific Solutions, Inc. STATE: NH PROJECf TITLE: Underwater Active Acoustic Monitoring Network for Marine and Hydrokinetic Energy Projects FUnding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number elD Number DE· FQA'{)()()293 DE-EEOOO3639 GF()'{)()()3639-002 G03639 Based on my review ofthe Information concerning the proposed aelion,.1.5 NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: B3.3 Research related to Field and laboratory research, inventory, and information collection activities that are directly conservation of fi sh, wildlife, related to the conservation of fish and wildlife resources or to the protection of cultural

344

DFPARThIFNT OFENJ!RGY EERE PROJECT MANAGEMENT CENTER NEPA DETER1>llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DFPARThIFNT OFENJ!RGY DFPARThIFNT OFENJ!RGY EERE PROJECT MANAGEMENT CENTER NEPA DETER1>llNATION Page I of3 RECIPIENT :Oklahoma State University - New Product Development Center ST ATE: OK PROJEL. TITLE; Manufacturing Improvement Program for the Oil and Gas Industry Supply Chain Funding Opportunity Announcement Number JIAC2012AM Procurement Instrument Number DE-EE0006029 NKPA Control Number GFO-OOO6029-001 CID Number G06029 Based on my review ofthe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE O rder 451.IA), I have made the following determination : CX, EA, EIS APPENDIX AND NUMBER : Description: A9 Information gathering, analysis, and dissemination A11 Technical advice and assistance to organizations Information gathering (including, but not limited to, literature surveys, inventories, site visits, and

345

U.S. DEPARTMENT OF ENl'RGY EERE PROJECT MANAGEMENT CENTER NFPA DFIFIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ENl'RGY ENl'RGY EERE PROJECT MANAGEMENT CENTER NFPA DFIFIU.llNATION RECIPIENT: Unlverslty of Maine at Presque Isle PROJECT TITLE: Solar Energy for the North Page I of2 STATE: ME Funding Opportunity Announcement Number FY 2010 COP Procurt'mcnt Instrument Number EEOOO3185 NEPA Control Number cm Number GFO-OO03185-OO1 EE3185 Based on my rt'yiew oftbe information concerning tbe proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI.lA), I baye made the following determination: C X, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply

346

US DFPARThIFNT OF ENERGY EERE PROJECT MANAGEMENT CENTER NllPA DETFID.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DFPARThIFNT OF ENERGY DFPARThIFNT OF ENERGY EERE PROJECT MANAGEMENT CENTER NllPA DETFID.llNATION RECIPIENT:Mercedes·Benz Research & Development, North America PROJECT TITLE : Light· Duty Fuel Cell Electric Vehicle Validation Data Page I of2 STATE : CA Funding Opportunity Announcemcnt Number DE·FOA·0000625 Procurement Instrument Number DE-EEOOO5971 NEPA Control Number CID Number GFO"'()005971...{)()1 G05971 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4SI. IA), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering, analysis, and dissemination Rational for detennination: Information gathering (including, but not limited to, literature surveys. inventories, site visits, and

347

US. DFPARThITNT OFFNERGY EERE PROJECT MANAG EM ENT CENTER NFPA DFTElU\llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DFPARThITNT OFFNERGY DFPARThITNT OFFNERGY EERE PROJECT MANAG EM ENT CENTER NFPA DFTElU\llNATION RECIPIENT:Advanced Magnet Lab, Inc. STATE: FL PROJECT TITLE: A Lightweight, Direct Drive, Fully Superconducting Generator for Large Wind Turbines Page lof3 Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CIO Number DE-FOA-Q000439 DE-EEOOO5140 GF()'{)()()S1 40-002 G05140 Based on my review orlbe information concerning tbe proposed action, as NEPA Compliance Officer (authorized under DOE Order 4St.IA),. bave made the following determination: ex. EA, EIS APPENDIX AND NUMBE R: Description: A9 Information gathering, analysis, and dissemination Information gathering (including, but not limited to, literature surveys, inventories, site visits, and

348

US DEPARTMENT OF ENJ!RGY EERE PROJECT MANAGEMENT CENTER NFPA DF1'EIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ENJ!RGY ENJ!RGY EERE PROJECT MANAGEMENT CENTER NFPA DF1'EIU.llNATION Page 1 of2 RECIPIENT:Ben Franklin Technology Partners STATE: PA PROJECf TITLE: Altemative and Clean Energy Technology Development and Commercialization Initiative Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-EEOOO1967 GF0-0001967 -001 NT1967 Based on my review orlhe informalion concerning the proposed action,.s NEPA Compliance Officer (authorized under DOE Order 451.IA), I have made the following determination: ex, EA, EIS APP .. : NDIX AND NUMBER : Description: 83.6 Small-scale research and development, labo rat ory operations, and pilot projects Rational for detennination: Siting, construction. modification, operation, and decommissioning of facilities for smallscale research

349

EERE PROJECT MANAGEMENT CENTER NFPA DFTFRJ.llNATION RECIPIENT:Growth Dimensions for Belvidere and Boone County Inc.  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

OFFNERGY OFFNERGY EERE PROJECT MANAGEMENT CENTER NFPA DFTFRJ.llNATION RECIPIENT:Growth Dimensions for Belvidere and Boone County Inc. PROJEcr TITLE: Biobased Materials Automotive Value Chain Market Development Analysis Page 1 of2 STATE: IL Funding Opportunity Announcement Number Procurement Instrument Numbu NEPA Control Number CID Number COP DE-FG36-04G014231 GF()..G014231-0Q9 G014231 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 45I.1A). I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but 001 limited la, literature surveys, inventories. audits), data analysis (including computer modeling), document preparation (such as conceptual design Of feasibility studies, analytical energy supply and

350

U.S. DEPARTMENT OF ENERGY EERE PROJECT MANAG EMENT C ENTER NEPA DETERll'llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

C C ENTER NEPA DETERll'llNATION RECIPIENT:County of San Luis Obispo PROJECf TITLE: EECBG: Bike Lane Activity Page 1 of2 STATE: CA Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-FOA-ODOD013 OE-EEOO00903 0 Based on my review oftbe information concerning the proposed action, as N[PA Compliance Officer (authorized under DOE Order45I.1A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potential energy conservation, and promote energy-efficiency thai do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical assistance to individuals (such as builders, owners, consultants, designers), organizations (such as utilities), and state

351

u.s. DEPARTMENT OF ENl!RGY EERE PROJECT MANAGEMENT CENTER NEPA DFTEIu.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ENl!RGY ENl!RGY EERE PROJECT MANAGEMENT CENTER NEPA DFTEIu.llNATION RECIPIENT:Oklahoma Department of Commerce PROJECT TITL.E: DE EE 0000922 Warr Aetes Ground Source Heat Project w/HVAC retrofit Page 1 of2 STATE : OK Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE FDA 0000013 DE EE 0000922 0 Based on my review orlh" information concerning (he proposed action, as NEPA Compliance Officer (authorized under DOE Order 4Sl.lA), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potential energy conservation, and promote energy-efficiency thaI do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

352

u.s. DFPARl'M]!NT OF ENERGY EERE PROJECT MANAGEMENT CENTER NFPA DF1'IRl\llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DFPARl'M]!NT OF ENERGY DFPARl'M]!NT OF ENERGY EERE PROJECT MANAGEMENT CENTER NFPA DF1'IRl\llNATION RECIPIENT:Office of Energy Resources PROJECT TITLE: SEP ARRA REEZ - City of Sandpoint - Phase 1 Page I of2 STATE: ID Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CIO Number DE·FOA-QOOOOS2 DE·EE0Q0141 GFO-OOOO141"()()8 EE141 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.IA), I have made the following determination: CX, EA, [IS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply

353

U.S. DEPARThlFNT OF ENFRGY EERE PROJECT MANAGEMENT CENTER NFPA DETEIU.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

~"I,' l\ ~"I,' l\ U.S. DEPARThlFNT OF ENFRGY EERE PROJECT MANAGEMENT CENTER NFPA DETEIU.llNATION RECIPIENT:Fairbanks North Star Borough PROJECT TITLE: Fairbanks Geothermal Energy Project Page 1 of2 STATE: AK Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-EEOOO3219 GF0-0003219-002 0 Rued on my review orlhe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 45I.1A), I bne made the (ollowing determination: ex, EA, EIS APPENDIX AND NUMBt-:R: Description: 65.12 Workover (operations to restore production, such as deepening, plugging back, pulling and resetting lines. and squeeze cementll'lg) of an existing oil, gas, or geothermal well to restore production when workOVElf operations will be restricted

354

2.0 Phase I, Tank Load, Support Equipment, LL Electronic Rack Preparations: Labor $$ Man-hrs Purchases $$ 2.1 Tank 2 Preparation  

E-Print Network (OSTI)

FY-99 2.0 Phase I, Tank Load, Support Equipment, LL Electronic Rack Preparations: Labor $$ Man Cooling System 1094 20 2.5.5 Wire Monitoring System to new control HV control rack 2155 29 2.5.6 Get 8973 $41, 134.00 39264 525 1870 FY-2000 3.0 Phase II Low Level Rack, System Checkout, Test Operations 3

McDonald, Kirk

355

Now that you're an alumnus, you'll want to show your pride. To help, the UF Alumni Association is offering a  

E-Print Network (OSTI)

is offering a $25 rebate on the Gator Nation state of Florida license plates*. To take advantage of this offer the UF plate number, to the UF Alumni Association. We'll send you a $25 rebate to cover the cost-mail to ufalum@uff.ufl.edu. Mail To: UF Alumni Association 2011 License Plate Rebate Offer P.O. Box 14425

Mazzotti, Frank

356

vdial lL t f with the strongest Doppler sounds; (4) measured the ankle blood pressure at t" e selected  

E-Print Network (OSTI)

vdial lL t f with the strongest Doppler sounds; (4) measured the ankle blood pressure at t" e selected artery, using the Doppler probe with an occlusive cuff around the ankle (with the lower edge's resting index for each leg was calculated by using the ankle blood plllssure and the maximal (from either

357

CS120 Fall 2014 --Logisim and Arduino In this lab, we'll use Logisim to build a few circuits. Build each of these yourself, and then  

E-Print Network (OSTI)

CS120 Fall 2014 -- Logisim and Arduino In this lab, we'll use Logisim to build a few circuits to abstract their operation, and think at a higher level. #12;Part 2 of the Lab: Arduino time! Plug in the Arduino to a lab machine using a USB cable, and open the Arduino development environment. If you've got

Madden, Patrick H.

358

Development of a data base system to aid the WDEQ in the evaluation of surface mining permit and renewal applications  

SciTech Connect

Western Research Institute (WRI) is developing a data management system for the Wyoming Department of Environmental Quality (WDEQ), Land Quality Division (LQD), under a cooperative agreement with the United States Department of Interior (DOI), Office of Surface Mining (OSM). The management system is being developed primarily to store hydrologic data, including spring and stream flow, groundwater level, ground and surface water quality, and aquifer test data. The data are used by the WDEQ to assess the probable hydrologic consequences and the cumulative hydrologic impact of surface coal mining operations. The majority of the data was collected for the mining companies for the purpose of completing permit or renewal application requirements.

Sanderson, W.B. [Western Research Institute, Laramie, WY (United States)

1990-12-31T23:59:59.000Z

359

Hanna, Wyoming underground coal gasification data base. Volume 4. Hanna II, Phases II and III field test research report  

SciTech Connect

This report is part of a seven-volume series on the Hanna, Wyoming, underground coal gasification field tests. Volume 1 is a summary of the project and each of Volumes 2 through 6 describes a particular test. Volume 7 is a compilation of all the data for the tests in Volumes 2 through 6. Hanna II, Phases II and III, were conducted during the winter of 1975 and the summer of 1976. The two phases refer to linking and gasification operations conducted between two adjacent well pairs as shown in Figure 1 with Phase II denoting operations between Wells 5 and 6 and Phase III operations between Wells 7 and 8. All of the other wells shown were instrumentation wells. Wells 7 and 8 were linked in November and December 1975. This report covers: (1) specific site selection and characteristics; (2) test objectives; (3) facilities description; (4) pre-operation tests; (5) test operations summary; and (6) post-test activity. 16 refs., 21 figs., 17 tabs.

Bartke, T.C.; Fischer, D.D.; King, S.B.; Boyd, R.M.; Humphrey, A.E.

1985-08-01T23:59:59.000Z

360

Laramide deformation of the Rocky Mountain Foreland, southeastern corner of the Bighorn Basin, Wyoming  

E-Print Network (OSTI)

nearly the enure length of South America. Jordan et al. (1983) describe two regions where the character of deformation changes significantly along strike of the Andean chain. The northern area is between 2'S to 15'S, the other, more southern region... is the simplest method, and assumes 1. ) strata are parallel to a planar, but not necessarily horizontal, upper basement surface and 2. ) strata do not change line length throughout deformation history. Sections should also be balanced by cross sectional area...

Derr, Douglas Neanion

2012-06-07T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


361

3D Sedimentological and geophysical studies of clastic reservoir analogs: Facies architecture, reservoir properties, and flow behavior within delta front facies elements of the Cretaceous Wall Creek Member, Frontier Formation, Wyoming  

SciTech Connect

Significant volumes of oil and gas occur in reservoirs formed by ancient river deltas. This has implications for the spatial distribution of rock types and the variation of transport properties. A between mudstones and sandstones may form baffles that influence productivity and recovery efficiency. Diagenetic processes such as compaction, dissolution, and cementation can also alter flow properties. A better understanding of these properties and improved methods will allow improved reservoir development planning and increased recovery of oil and gas from deltaic reservoirs. Surface exposures of ancient deltaic rocks provide a high-resolution view of variability. Insights gleaned from these exposures can be used to model analogous reservoirs, for which data is sparser. The Frontier Formation in central Wyoming provides an opportunity for high-resolution models. The same rocks exposed in the Tisdale anticline are productive in nearby oil fields. Kilometers of exposure are accessible, and bedding-plane exposures allow use of high-resolution ground-penetrating radar. This study combined geologic interpretations, maps, vertical sections, core data, and ground-penetrating radar to construct geostatistical and flow models. Strata-conforming grids were use to reproduce the observed geometries. A new Bayesian method integrates outcrop, core, and radar amplitude and phase data. The proposed method propagates measurement uncertainty and yields an ensemble of plausible models for calcite concretions. These concretions affect flow significantly. Models which integrate more have different flow responses from simpler models, as demonstrated an exhaustive two-dimensional reference image and in three dimensions. This method is simple to implement within widely available geostatistics packages. Significant volumes of oil and gas occur in reservoirs that are inferred to have been formed by ancient river deltas. This geologic setting has implications for the spatial distribution of rock types (\\Eg sandstones and mudstones) and the variation of transport properties (\\Eg permeability and porosity) within bodies of a particular rock type. Both basin-wide processes such as sea-level change and the autocyclicity of deltaic processes commonly cause deltaic reservoirs to have large variability in rock properties; in particular, alternations between mudstones and sandstones may form baffles and trends in rock body permeability can influence productivity and recovery efficiency. In addition, diagenetic processes such as compaction, dissolution, and cementation can alter the spatial pattern of flow properties. A better understanding of these properties, and improved methods to model the properties and their effects, will allow improved reservoir development planning and increased recovery of oil and gas from deltaic reservoirs. Surface exposures of ancient deltaic rocks provide a high resolution, low uncertainty view of subsurface variability. Patterns and insights gleaned from these exposures can be used to model analogous reservoirs, for which data is much sparser. This approach is particularly attractive when reservoir formations are exposed at the surface. The Frontier Formation in central Wyoming provides an opportunity for high resolution characterization. The same rocks exposed in the vicinity of the Tisdale anticline are productive in nearby oil fields, including Salt Creek. Many kilometers of good-quality exposure are accessible, and the common bedding-plane exposures allow use of shallow-penetration, high-resolution electromagnetic methods known as ground-penetrating radar. This study combined geologic interpretations, maps, vertical sections, core data, and ground-penetrating radar to construct high-resolution geostatistical and flow models for the Wall Creek Member of the Frontier Formation. Stratal-conforming grids were use to reproduce the progradational and aggradational geometries observed in outcrop and radar data. A new, Bayesian method integrates outcrop--derived statistics, core observations of concretions, and radar amplitude and

Christopher D. White

2009-12-21T23:59:59.000Z

362

Seismic signatures of the Lodgepole fractured reservoir in Utah-Wyoming overthrust belt  

SciTech Connect

In low porosity, low permeability zones, natural fractures are the primary source of permeability which affect both production and injection of fluids. The open fractures do not contribute much to porosity, but they provide an increased drainage network to any porosity. An important approach to characterizing the fracture orientation and fracture permeability of reservoir formations is one based upon the effects of such conditions on the propagation of acoustic and seismic waves in the rock. We present the feasibility of using seismic measurement techniques to map the fracture zones between wells spaced 2400 ft at depths of about 1000 ft. For this purpose we constructed computer models (which include azimuthal anisotropy) using Lodgepole reservoir parameters to predict seismic signatures recorded at the borehole scale, crosswell scale, and 3 D seismic scale. We have integrated well logs with existing 2D surfaces seismic to produce petrophysical and geological cross sections to determine the reservoir parameters and geometry for the computer models. In particular, the model responses are used to evaluate if surface seismic and crosswell seismic measurements can capture the anisotropy due to vertical fractures. Preliminary results suggested that seismic waves transmitted between two wells will propagate in carbonate fracture reservoirs, and the signal can be received above the noise level at the distance of 2400 ft. In addition, the large velocities contrast between the main fracture zone and the underlying unfractured Boundary Ridge Member, suggested that borehole reflection imaging may be appropriate to map and fracture zone thickness variation and fracture distributions in the reservoir.

Parra, J.; Collier, H.; Angstman, B.

1997-08-01T23:59:59.000Z

363

Precision Measurements of ${\\cal B}[?(3686) \\to ?^+?^- J/?]$ and ${\\cal B}[J/?\\to l^+l^-]$  

E-Print Network (OSTI)

Based on $(106.41 \\pm 0.86)\\times 10^{6}$ $\\psi(3686)$ events collected with the BESIII detector at the BEPCII collider, the branching fractions of $\\psi(3686) \\to \\pi^+\\pi^- J/\\psi$, $J/\\psi \\to e^+e^- $, and $J/\\psi \\to \\mu^+\\mu^-$ are measured. We obtain ${\\cal B}[\\psi(3686) \\to \\pi^+\\pi^-J/\\psi]=(34.98\\pm 0.02\\pm 0.45)%$, ${\\cal B}[J/\\psi \\to e^+e^-] = (5.983 \\pm 0.007 \\pm 0.037)%$ and ${\\cal B}[J/\\psi \\to \\mu^+\\mu^-] = (5.973 \\pm 0.007 \\pm 0.038)%$. The measurement of ${\\cal B}[\\psi(3686) \\to \\pi^{+}\\pi^{-}J/\\psi]$ confirms the CLEO-c measurement, and is apparently larger than the others. The measured $J/\\psi$ leptonic decay branching fractions agree with previous experiments within one standard deviation. These results lead to ${\\cal B}[J/\\psi \\to l^+l^-] = (5.978 \\pm 0.005 \\pm 0.040)%$ by averaging over the $e^{+}e^{-}$ and $\\mu^{+}\\mu^{-}$ channels and a ratio of ${\\cal B}[J/\\psi \\to e^+e^-] / {\\cal B}[J/\\psi \\to \\mu^+\\mu^-] = 1.0017 \\pm 0.0017 \\pm 0.0033$, which tests $e$-$\\mu$ universality at the four tenths of a percent level. All the measurements presented in this paper are the most precise in the world to date.

BESIII Collaboration; M. Ablikim; M. N. Achasov; O. Albayrak; D. J. Ambrose; F. F. An; Q. An; J. Z. Bai; R. Baldini Ferroli; Y. Ban; J. Becker; J. V. Bennett; M. Bertani; J. M. Bian; E. Boger; O. Bondarenko; I. Boyko; S. Braun; R. A. Briere; V. Bytev; H. Cai; X. Cai; O. Cakir; A. Calcaterra; G. F. Cao; S. A. Cetin; J. F. Chang; G. Chelkov; G. Chen; H. S. Chen; J. C. Chen; M. L. Chen; S. J. Chen; X. R. Chen; Y. B. Chen; H. P. Cheng; Y. P. Chu; D. Cronin-Hennessy; H. L. Dai; J. P. Dai; D. Dedovich; Z. Y. Deng; A. Denig; I. Denysenko; M. Destefanis; W. M. Ding; Y. Ding; L. Y. Dong; M. Y. Dong; S. X. Du; J. Fang; S. S. Fang; L. Fava; C. Q. Feng; P. Friedel; C. D. Fu; J. L. Fu; O. Fuks; Y. Gao; C. Geng; K. Goetzen; W. X. Gong; W. Gradl; M. Greco; M. H. Gu; Y. T. Gu; Y. H. Guan; A. Q. Guo; L. B. Guo; T. Guo; Y. P. Guo; Y. L. Han; F. A. Harris; K. L. He; M. He; Z. Y. He; T. Held; Y. K. Heng; Z. L. Hou; C. Hu; H. M. Hu; J. F. Hu; T. Hu; G. M. Huang; G. S. Huang; J. S. Huang; L. Huang; X. T. Huang; Y. Huang; T. Hussain; C. S. Ji; Q. Ji; Q. P. Ji; X. B. Ji; X. L. Ji; L. L. Jiang; X. S. Jiang; J. B. Jiao; Z. Jiao; D. P. Jin; S. Jin; F. F. Jing; N. Kalantar-Nayestanaki; M. Kavatsyuk; B. Kloss; B. Kopf; M. Kornicer; W. Kuehn; W. Lai; J. S. Lange; M. Lara; P. Larin; M. Leyhe; C. H. Li; Cheng Li; Cui Li; D. M. Li; F. Li; G. Li; H. B. Li; J. C. Li; K. Li; Lei Li; Q. J. Li; W. D. Li; W. G. Li; X. L. Li; X. N. Li; X. Q. Li; X. R. Li; Z. B. Li; H. Liang; Y. F. Liang; Y. T. Liang; G. R. Liao; X. T. Liao; D. X. Lin; B. J. Liu; C. L. Liu; C. X. Liu; F. H. Liu; Fang Liu; Feng Liu; H. Liu; H. B. Liu; H. H. Liu; H. M. Liu; H. W. Liu; J. P. Liu; K. Liu; K. Y. Liu; P. L. Liu; Q. Liu; S. B. Liu; X. Liu; Y. B. Liu; Z. A. Liu; Zhiqiang Liu; Zhiqing Liu; H. Loehner; X. C. Lou; G. R. Lu; H. J. Lu; J. G. Lu; X. R. Lu; Y. P. Lu; C. L. Luo; M. X. Luo; T. Luo; X. L. Luo; M. Lv; F. C. Ma; H. L. Ma; Q. M. Ma; S. Ma; T. Ma; X. Y. Ma; F. E. Maas; M. Maggiora; Q. A. Malik; Y. J. Mao; Z. P. Mao; J. G. Messchendorp; J. Min; T. J. Min; R. E. Mitchell; X. H. Mo; H. Moeini; C. Morales Morales; K. Moriya; N. Yu. Muchnoi; H. Muramatsu; Y. Nefedov; I. B. Nikolaev; Z. Ning; S. L. Olsen; Q. Ouyang; S. Pacetti; J. W. Park; M. Pelizaeus; H. P. Peng; K. Peters; J. L. Ping; R. G. Ping; R. Poling; E. Prencipe; M. Qi; S. Qian; C. F. Qiao; L. Q. Qin; X. S. Qin; Y. Qin; Z. H. Qin; J. F. Qiu; K. H. Rashid; C. F. Redmer; G. Rong; X. D. Ruan; A. Sarantsev; M. Shao; C. P. Shen; X. Y. Shen; H. Y. Sheng; M. R. Shepherd; W. M. Song; X. Y. Song; S. Spataro; B. Spruck; D. H. Sun; G. X. Sun; J. F. Sun; S. S. Sun; Y. J. Sun; Y. Z. Sun; Z. J. Sun; Z. T. Sun; C. J. Tang; X. Tang; I. Tapan; E. H. Thorndike; D. Toth; M. Ullrich; I. Uman; G. S. Varner; B. Wang; D. Wang; D. Y. Wang; K. Wang; L. L. Wang; L. S. Wang; M. Wang; P. Wang; P. L. Wang; Q. J. Wang; S. G. Wang; X. F. Wang; X. L. Wang; Y. D. Wang; Y. F. Wang; Y. Q. Wang; Z. Wang; Z. G. Wang; Z. Y. Wang; D. H. Wei; J. B. Wei; P. Weidenkaff; Q. G. Wen; S. P. Wen; M. Werner; U. Wiedner; L. H. Wu; N. Wu; S. X. Wu; W. Wu; Z. Wu; L. G. Xia; Y. X Xia; Z. J. Xiao; Y. G. Xie; Q. L. Xiu; G. F. Xu; Q. J. Xu; Q. N. Xu; X. P. Xu; Z. R. Xu; Z. Xue; L. Yan; W. B. Yan; Y. H. Yan; H. X. Yang; Y. Yang; Y. X. Yang; H. Ye; M. Ye; M. H. Ye; B. X. Yu; C. X. Yu; H. W. Yu; J. S. Yu; S. P. Yu; C. Z. Yuan; Y. Yuan; A. A. Zafar; A. Zallo; S. L. Zang; Y. Zeng; B. X. Zhang; B. Y. Zhang; C. Zhang; C. C. Zhang; D. H. Zhang; H. H. Zhang; H. Y. Zhang; J. Q. Zhang; J. W. Zhang; J. Y. Zhang; J. Z. Zhang; LiLi Zhang; R. Zhang; S. H. Zhang; X. J. Zhang; X. Y. Zhang; Y. Zhang; Y. H. Zhang; Z. P. Zhang; Z. Y. Zhang; Zhenghao Zhang; G. Zhao; H. S. Zhao; J. W. Zhao; Lei Zhao; Ling Zhao; M. G. Zhao; Q. Zhao; S. J. Zhao; T. C. Zhao; X. H. Zhao; Y. B. Zhao; Z. G. Zhao; A. Zhemchugov; B. Zheng; J. P. Zheng; Y. H. Zheng; B. Zhong; L. Zhou; X. Zhou; X. K. Zhou; X. R. Zhou; C. Zhu; K. Zhu; K. J. Zhu; S. H. Zhu; X. L. Zhu; Y. C. Zhu; Y. S. Zhu; Z. A. Zhu; J. Zhuang; B. S. Zou; J. H. Zou

2013-07-04T23:59:59.000Z

364

Multiscale heterogeneity characterization of tidal channel, tidal delta and foreshore facies, Almond Formation outcrops, Rock Springs uplift, Wyoming  

SciTech Connect

In order to accurately predict fluid flow within a reservoir, variability in the rock properties at all scales relevant to the specific depositional environment needs to be taken into account. The present work describes rock variability at scales from hundreds of meters (facies level) to millimeters (laminae) based on outcrop studies of the Almond Formation. Tidal channel, tidal delta and foreshore facies were sampled on the eastern flank of the Rock Springs uplift, southeast of Rock Springs, Wyoming. The Almond Fm. was deposited as part of a mesotidal Upper Cretaceous transgressive systems tract within the greater Green River Basin. Bedding style, lithology, lateral extent of beds of bedsets, bed thickness, amount and distribution of depositional clay matrix, bioturbation and grain sorting provide controls on sandstone properties that may vary more than an order of magnitude within and between depositional facies in outcrops of the Almond Formation. These features can be mapped on the scale of an outcrop. The products of diagenesis such as the relative timing of carbonate cement, scale of cemented zones, continuity of cemented zones, selectively leached framework grains, lateral variability of compaction of sedimentary rock fragments, and the resultant pore structure play an equally important, although less predictable role in determining rock property heterogeneity. A knowledge of the spatial distribution of the products of diagenesis such as calcite cement or compaction is critical to modeling variation even within a single facies in the Almond Fin. because diagenesis can enhance or reduce primary (depositional) rock property heterogeneity. Application of outcrop heterogeneity models to the subsurface is greatly hindered by differences in diagenesis between the two settings. The measurements upon which this study is based were performed both on drilled outcrop plugs and on blocks.

Schatzinger, R.A.; Tomutsa, L. [BDM Petroleum Technologies, Bartlesville, OK (United States)

1997-08-01T23:59:59.000Z

365

IIIIIIII IIIIIIIIIII ll IIIIIIII  

E-Print Network (OSTI)

Apr 16, 2012 ... omy for up to three months, energy storage require- ments of active ... sequent to a nuclear event, can also be detected by the stellar sensors.

366

Atomic-Resolution Image of GaAs(110) Surface with an Ultrahigh-Vacuum Atomic Force Microscope (UHV-AFM)  

Science Journals Connector (OSTI)

The first demonstration of atomic-resolution imaging of a GaAs(HO) surface with an ultrahigh vacuum atomic force microscope (UHV-AFM) was performed. We also observed ... GaAs(llO). This result suggests that the UHV

Y. Sugawara; M. Ohta; K. Hontani; S. Morita; F. Osaka

1995-01-01T23:59:59.000Z

367

Wyoming Natural Gas Summary  

NLE Websites -- All DOE Office Websites (Extended Search)

6.86 3.40 4.30 1967-2010 Pipeline and Distribution Use 1967-2005 Citygate 7.02 4.89 5.04 4.65 4.03 4.51 1984-2013 Residential 10.16 9.39 8.58 8.72 8.42 8.27 1967-2013 Commercial...

368

Gulf of Mexico",,"Louisiana",,"New Mexico",,"Oklahoma",,"Texas",,"Wyoming",,"Other States  

U.S. Energy Information Administration (EIA) Indexed Site

Estimated EIA-914 Gross Withdrawals1 by Area by Month, Bcf/d" Estimated EIA-914 Gross Withdrawals1 by Area by Month, Bcf/d" "Area","Federal Offshore Gulf of Mexico",,"Louisiana",,"New Mexico",,"Oklahoma",,"Texas",,"Wyoming",,"Other States (Excluding Alaska)",,"Lower 48 States",,"Alaska (State Data)",,"US Total" "Report Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month","Gross Withdrawals (Bcf/day)","% Change from Last Month"

369

The relationship between coal quality and coal resource parameters of Powder River and Williston Basin coal, Wyoming, Montana, and North Dakota  

SciTech Connect

Clean, compliant coal from mines in the Northern Rocky Mountain and Great Plains region is utilized as fuel for coal-fired power plants in 26 states. More than 30 percent of the nation`s 1997 production was from Montana, North Dakota, and Wyoming. Production of clean, compliant coal from the region is estimated to increase to 415 million short tons by the year 2015. Studies in this region indicate a relationship between percent sulfur and ash and pounds of SO{sub 2} per million Btu and the resource parameters of coal thickness and overburden. The trends that the authors have observed indicate that both coal quality and the thickness of the coal and associated rocks are controlled by paleoenvironment and depositional setting.

Ellis, M.S.; Stricker, G.D.; Gunther, G.; Ochs, A.M.; Flores, R.M.

1998-12-31T23:59:59.000Z

370

An evaluation of known remaining oil resources in the state of New Mexico and Wyoming. Volume 4, Project on Advanced Oil Recovery and the States  

SciTech Connect

The Interstate Oil and Gas Compact Commission (IOGCC) has conducted a series of studies to evaluate the known, remaining oil resource in twenty-three (23) states. The primary objective of the IOGCC`s effort is to examine the potential impact of an aggressive and focused program of research, development, and demonstration (RD&D) and technology transfer on future oil recovery in the United States. As part of a larger effort by the IOGCC, this report focuses on the potential economic benefits of improved oil recovery in the states of New Mexico and Wyoming. Individual reports for six other oil producing states and a national report have been separately published by the IOGCC. The analysis presented in this report is based on the databases and models available in the Tertiary Oil Recovery Information System (TORIS). Overall, well abandonments and more stringent environmental regulations could limit economic access to New Mexico`s known, remaining oil resource. The high risk of near-term abandonment and the significant benefits of future application of improved oil recovery technology, clearly point to a need for more aggressive transfer of currently available technologies to domestic oil producers. Development and application of advanced oil recovery technologies could have even greater benefits to the state and the nation. A collaborative, focused RD&D effort, integrating the resources and expertise of industry, state and local governments, and the Federal government, is clearly warranted. With effective RD&D and a program of aggressive technology transfer to widely disseminate its results, oil production could be maximized. The resulting increase in production rates, employment, operator profits, state and Federal tax revenues, and energy security will benefit both the states of New Mexico and Wyoming and the nation as a whole.

Not Available

1994-11-01T23:59:59.000Z

371

Surface premelting  

Science Journals Connector (OSTI)

The most important results obtained in the theory of surface premelting of crystals are briefly discussed on the basis of the vibration-positional model, the quasiliquid layer model, the surface roughness model, and in the case of ice, the model of the oriented dipoles at the surface. A review of the existing experimental results on surface premelting is presented, these results being obtained by investigating the crystal morphology, the polar diagram of the specific surface energy, the surface self-diffusion, the thermal emissivity, as well as upon application of LEED, NMR, Rutherford backscattering at proton channeling and ellipsometry. The agreement between theoretical and experimental data is discussed.

D. Nenow

1984-01-01T23:59:59.000Z

372

U.S. DI!PARTMFNT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DE1'l1R1.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

PARTMFNT OF ENERGY PARTMFNT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DE1'l1R1.llNATION RECIPIENT:Loudoun County Virginia Government Page 1 of2 STATE:: VA PROJECT TITLE: Scott Jenkins Parking Lot LED Lighting with Solar Arrays and on·site EV Charging Stations Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number EEOOOO868 DE-EEOOOO86B GFO-OOOO868-OO3 EEO Based on my review orthe information concerning tbe proposed action, as NEPA CompliaMt Officer (authorized under DOE Order 451.1A), I have made the following determination; ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy. demonstrate potential energy conservation, and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

373

U.S. DEPARTMENT OF ENl!RGY EERE PROJECT MANAGEMENT CENTER Nl!PA DETl!R1.llNATION  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ENl!RGY ENl!RGY EERE PROJECT MANAGEMENT CENTER Nl!PA DETl!R1.llNATION RECIPIENT: Magma Energy (U.S .) Corp. Page 1 of3 STATE: NV PROJECf TITLE: Recovery Act: A 3D·3C Reflection Seismic Survey and Data Integration to Identify the Seismic Response of Fractures and Permeable Zones over a Known Geothermal Resource: Soda lake , Churchill Co" NV Funding Opportunity Announcement Number PrO(u.-ement Instrument Number NEPA Control Number em Number 0000109 DE-EEOOO2832 GFO-OOO2832·003 0 Based on my review oftbe informatioD concerning the proposed action, as NEPA Compliance Officer (authori7.ed under DOE Order 451.IA), I have made the following determination: ex, EA, [IS APPENDIX AND NUMBER: Description: A9 Information gathenng (including , but nollimiled 10, literature surveys, inventories, audits), data analYSIS (including

374

EERE PROJECT MANAGEMENT CENTE R NEPA DE1"l1lU.-llNATION RECIPIENT:Physical Optics Corporation  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

CENTE CENTE R NEPA DE1"l1lU.-llNATION RECIPIENT:Physical Optics Corporation PROJECT TITLE : Electrically Supported Thermal Exchange (ELSTEX) Technology Page 1 of2 STATE: CA Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA-OOOO336 DE-EEOOO5130 GF0-0005130-001 EE5130 Based on my re view of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451. 1A), I have made tbe following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits). data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies. analytical energy supply

375

EERE PROJECT MANAGEMENT CENTER N1!PA DEl'l!R1.llNAl'ION R[CIPIENT:State of Louisiana-louisiana Department of Natural Resources  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

CENTER CENTER N1!PA DEl'l!R1.llNAl'ION R[CIPIENT:State of Louisiana-louisiana Department of Natural Resources PROJECf TITLE: ARRA EECBG - State of Louisiana St. James Parish Page 1 of2 STATE: LA Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number em Number DE-FOA-OOOOO13 DE-EEOOOO735 GF0-0000735-004 0 Based on my review or the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.IA), I bave made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potentia! energy conservation, and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

376

Greater Sage-Grouse Habitat Use and Population Demographics at the Simpson Ridge Wind Resource Area, Carbon County, Wyoming  

SciTech Connect

This study was conducted to obtain baseline data on use of the proposed Simpson Ridge Wind Resource Area (SRWRA) in Carbon County, Wyoming by greater sage-grouse. The first two study years were designed to determine pre-construction seasonally selected habitats and population-level vital rates (productivity and survival). The presence of an existing wind energy facility in the project area, the PacifiCorp Seven Mile Hill (SMH) project, allowed us to obtain some information on initial sage-grouse response to wind turbines the first two years following construction. To our knowledge these are the first quantitative data on sage-grouse response to an existing wind energy development. This report presents results of the first two study years (April 1, 2009 through March 30, 2011). This study was selected for continued funding by the National Wind Coordinating Collaborative Sage-Grouse Collaborative (NWCC-SGC) and has been ongoing since March 30, 2011. Future reports summarizing results of this research will be distributed through the NWCC-SGC. To investigate population trends through time, we determined the distribution and numbers of males using leks throughout the study area, which included a 4-mile radius buffer around the SRWRA. Over the 2-year study, 116 female greater sage-grouse were captured by spotlighting and use of hoop nets on roosts surrounding leks during the breeding period. Radio marked birds were located anywhere from twice a week to once a month, depending on season. All radio-locations were classified to season. We developed predictor variables used to predict success of fitness parameters and relative probability of habitat selection within the SRWRA and SMH study areas. Anthropogenic features included paved highways, overhead transmission lines, wind turbines and turbine access roads. Environmental variables included vegetation and topography features. Home ranges were estimated using a kernel density estimator. We developed resource selection functions (RSF) to estimate probability of selection within the SRWRA and SMH. Fourteen active greater sage-grouse leks were documented during lek surveys Mean lek size decreased from 37 in 2008 to 22 in 2010. Four leks located 0.61, 1.3, 1.4 and 2.5 km from the nearest wind turbine remained active throughout the study, but the total number of males counted on these four leks decreased from 162 the first year prior to construction (2008), to 97 in 2010. Similar lek declines were noted in regional leks not associated with wind energy development throughout Carbon County. We obtained 2,659 sage-grouse locations from radio-equipped females, which were used to map use of each project area by season. The sage-grouse populations within both study areas are relatively non-migratory, as radio-marked sage-grouse used similar areas during all annual life cycles. Potential impacts to sage-grouse from wind energy infrastructure are not well understood. The data rom this study provide insight into the early interactions of wind energy infrastructure and sage-grouse. Nest success and brood-rearing success were not statistically different between areas with and without wind energy development in the short-term. Nest success also was not influenced by anthropogenic features such as turbines in the short-term. Additionally, female survival was similar among both study areas, suggesting wind energy infrastructure was not impacting female survival in the short-term; however, further analysis is needed to identify habitats with different levels of risk to better understand the impact of wind enregy development on survival. Nest and brood-rearing habitat selection were not influenced by turbines in the short-term; however, summer habitat selection occurred within habitats closer to wind turbines. Major roads were avoided in both study areas and during most of the seasons. The impact of transmission lines varied among study areas, suggesting other landscape features may be influencing selection. The data provided in this report are preliminary and are not meant to provide a basis for fo

Gregory D. Johnson; Chad W. LeBeau; Ryan Nielsen; Troy Rintz; Jamey Eddy; Matt Holloran

2012-03-27T23:59:59.000Z

377

1. V.H. Wysocki, G. Tsaprailis, L.L. Smith, L.A. Breci "Mobile and Localized Protons: A Framework for Understanding Peptide Dissociation" J. Mass Spectrom., 35, 1399-1406, 2000.  

E-Print Network (OSTI)

1. V.H. Wysocki, G. Tsaprailis, L.L. Smith, L.A. Breci "Mobile and Localized Protons: A Framework-Charge Derivatives of Asp-containing Peptides" Anal. Chem., 72, 5804-5813, 2000. 3. D. Tabb, L. Smith, L. Breci, V

Ziurys, Lucy M.

378

Cheng LL, et al. 2001. Characterization of an endogenous gene expressed in Aedes aegypti using an orally infec-tious recombinant Sindbis virus. 7 pp. Journal of Insect Science, 1:10. Available online: insectscience.org/1.10  

E-Print Network (OSTI)

Cheng LL, et al. 2001. Characterization of an endogenous gene expressed in Aedes aegypti using RNA virus (Togaviridae family) that naturally cycles between mosquitoes and avian hosts (Taylor et al and in vivo and offer great potential for gene characterization (Jiang et al, 1995, Gaines et al., 1996, Higgs

Lowenberger, Carl

379

Surface Soil  

NLE Websites -- All DOE Office Websites (Extended Search)

Surface Soil Surface Soil Surface Soil We compare local soil samples with samples collected from northern New Mexico locations that are beyond the range of potential influence from normal Laboratory operations. April 12, 2012 Farm soil sampling Two LANL environmental field team members take soil samples from a farm. Contact Environmental Communication & Public Involvement P.O. Box 1663 MS M996 Los Alamos, NM 87545 (505) 667-0216 Email Measurements are compared to samples from the regional sites and compared to averages over time to see if there are changes in concentrations. Monitoring surface soil LANL has monitored surface soils since the early 1970s. Institutional surface soil samples are collected from 17 on-site, 11 perimeter, and six regional (background) locations every three years.

380

The influence of mountain pine beetle outbreaks and drought on severe wildfires in northwestern Colorado and southern Wyoming: A look at the past century  

Science Journals Connector (OSTI)

Outbreaks of bark beetles and drought both lead to concerns about increased fire risk, but the relative importance of these two factors is the subject of much debate. We examined how mountain pine beetle (MPB) outbreaks and drought have contributed to the fire regime of lodgepole pine forests in northwestern Colorado and adjacent areas of southern Wyoming over the past century. We used dendroecological methods to reconstruct the pre-fire history of MPB outbreaks in twenty lodgepole pine stands that had burned between 1939 and 2006 and in 20 nearby lodgepole pine stands that were otherwise similar but that had not burned. Our data represent c. 80% of all large fires that had occurred in lodgepole pine forests in this study area over the past century. We also compared Palmer Drought Severity Index (PDSI) and actual evapotranspiration (AET) values between fire years and non-fire years. Burned stands were no more likely to have been affected by outbreak prior to fires than were nearby unburned stands. However, PDSI and AET values were both lower during fire years than during non-fire years. This work indicates that climate has been more important than outbreaks to the fire regime of lodgepole pine forests in this region over the past century. Indeed, we found no detectable increase in the occurrence of high-severity fires following MPB outbreaks. Dry conditions, rather than changes in fuels associated with outbreaks, appear to be most limiting to the occurrence of severe fires in these forests.

Dominik Kulakowski; Daniel Jarvis

2011-01-01T23:59:59.000Z

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381

Determining erodibility, critical shear stress, and allowable discharge estimates for cohesive channels: case study in the Powder River Basin of Wyoming  

SciTech Connect

The continuous discharge of coalbed natural gas-produced (CBNG-produced) water within ephemeral, cohesive channels in the Powder River Basin (PRB) of Wyoming can result in significant erosion. A study was completed to investigate channel stability in an attempt to correlate cohesive soil properties to critical shear stress. An in situ jet device was used to determine critical shear stress (tau{sub c}) and erodibility (k{sub d}); cohesive soil properties were determined following ASTM procedures for 25 reaches. The study sites were comprised of erodible to moderately resistant clays with tau{sub c} ranging from 0.11 to 15.35 Pa and k{sub d} ranging from 0.27 to 2.38 cm{sup 3}/N s. A relationship between five cohesive soil characteristics and tau{sub c} was developed and presented for use in deriving tau{sub c} for similar sites. Allowable discharges for CBNG-produced water were also derived using tau{sub c} and the tractive force method. An increase in the allowable discharge was found for channels in which vegetation was maintained. The information from this case study is critical to the development of a conservative methodology to establish allowable discharges while minimizing flow-induced instability.

Thoman, R.W.; Niezgoda, S.L. [Lowham Engineering LLC, Lander, WY (United States)

2008-12-15T23:59:59.000Z

382

Prediction of reservoir properties using diagenetic analysis of a template unit: example from Upper Cretaceous sandstones in Powder River basin, Wyoming  

SciTech Connect

Depositional and postdepositional histories of the Parkman formation in the Powder River basin, Wyoming, were studied in detail and compared with other Upper Cretaceous lenticular sandstone units of the Teapot, Sussex, and Shannon sandstones. Petrographic analysis was done using light, cathodoluminescent, scanning, scanning transmission, and backscattered microscopic techniques. X-ray microanalysis was done using energy and wavelength-dispersive spectroscopy systems. The primary diagenetic events observed in these Upper Cretaceous sandstones include ductile-grain deformation and original porosity reduction; formation of authigenic chlorite, kaolinite, illite, and smectite; quartz overgrowths; formation of authigenic feldspar; alteration of feldspar; carbonate cementation; and pyrite and iron oxide precipitation. The major effects upon reservoir properties include: porosity and permeability reduction due to formation of authigenic clays, quartz, and carbonate cement; and early formation of chlorite coatings preventing complete destruction of porosity by quartz overgrowths. Diagenetic alternations appear to be strongly influenced by depositional facies and chemistries of original interstitial waters. However, sources for authigenic silica and clays were predominantly exogenic, although some authigenic minerals had endogenic sources such as feldspar alteration to clay minerals. Authigenic minerals that have exogenic sources appear to have precipitated from fluids generated during diagenesis of the surrounding mud rocks. For this reason, major diagenetic trends in these lenticular sandstones are similar. A diagenetic model developed from the results of analysis of the Parkman formation was successfully used to predict reservoir properties in the Teapot, Sussex, and Shannon sandstones.

Dogan, A.U.; Brenner, R.L.

1987-05-01T23:59:59.000Z

383

Geochemical provenance of anomalous metal concentrations in stream sediments in the Ashton 1:250,000 quadrangle, Idaho/Montana/Wyoming  

SciTech Connect

Stream-sediment samples from 1500 sites in the Ashton, Idaho/Montana/Wyoming 1:250,000 quadrangle were analyzed for 45 elements. Almost all samples containing anomalous concentrations (exceeding one standard deviation above the mean value of any element) were derived from drainage basins underlain by Quaternary rhyolite, Tertiary andesite or Precambrian gneiss and schist. Aluminum, barium, calcium, cobalt, iron, nickel, magnesium, scandium, sodium, strontium, and vanadium have no andesite provenance. Most anomalous manganese, europium, hafnium, and zirconium values were derived from Precambrian rocks. All other anomalous elemental concentrations are related to Quaternary rhyolite. This study demonstrates that multielemental stream-sediment analyses can be used to infer the provenance of stream sediments. Such data are available for many parts of the country as a result of the National Uranium Resource Evaluation. This study suggests that stream-sediment samples collected in the Rocky Mountains can be used either as pathfinders or as direct indicators to select targets for mineral exploration for a host of metals.

Shannon, S.S. Jr.

1982-01-01T23:59:59.000Z

384

Programmable surfaces  

E-Print Network (OSTI)

Robotic vehicles walk on legs, roll on wheels, are pulled by tracks, pushed by propellers, lifted by wings, and steered by rudders. All of these systems share the common character of momentum transport across their surfaces. ...

Sun, Amy (Amy Teh-Yu)

2012-01-01T23:59:59.000Z

385

Hydraulic fracturing and wellbore completion of coalbed methane wells in the Powder River Basin, Wyoming: Implications for water and gas production  

SciTech Connect

Excessive water production (more than 7000 bbl/month per well) from many coalbed methane (CBM) wells in the Powder River Basin of Wyoming is also associated with significant delays in the time it takes for gas production to begin. Analysis of about 550 water-enhancement activities carried out during well completion demonstrates that such activities result in hydraulic fracturing of the coal. Water-enhancement activities, consists of pumping 60 bbl of water/min into the coal seam during approximately 15 min. This is done to clean the well-bore and to enhance CBM production. Hydraulic fracturing is of concern because vertical hydraulic fracture growth could extend into adjacent formations and potentially result in excess CBM water production and inefficient depressurization of coals. Analysis of the pressure-time records of the water-enhancement tests enabled us to determine the magnitude of the least principal stress (S{sub 3}) in the coal seams of 372 wells. These data reveal that because S{sub 3} switches between the minimum horizontal stress and the overburden at different locations, both vertical and horizontal hydraulic fracture growth is inferred to occur in the basin, depending on the exact location and coal layer. Relatively low water production is observed for wells with inferred horizontal fractures, whereas all of the wells associated with excessive water production are characterized by inferred vertical hydraulic fractures. The reason wells with exceptionally high water production show delays in gas production appears to be inefficient depressurization of the coal caused by water production from the formations outside the coal. To minimize CBM water production, we recommend that in areas of known vertical fracture propagation, the injection rate during the water-enhancement tests should be reduced to prevent the propagation of induced fractures into adjacent water-bearing formations.

Colmenares, L.B.; Zoback, M.D. [Stanford University, Stanford, CA (United States). Dept. of Geophysics

2007-01-15T23:59:59.000Z

386

Sulfur and ash in Paleocene Wyodak-Anderson coal in the Powder River Basin, Wyoming and Montana: A fuel source beyond 2000  

SciTech Connect

When coal-fired power plants are required by the Environmental Protection Agency (EPA) to meet more stringent sulfur emission standards (0.6 pound per million Btu) after the year 2000, most of the clean and compliant coals will come from the Powder River Basin in Wyoming and Montana. In 1996 more than 300 million short toms of these clean and compliant coals were produced from the Paleocene Fort Union Formation in the northern Rocky Mountains and Great Plans region. This is more than 30% of the total US coal production of 1.03 billion short tons in 1996. Future demand for clean and compliant coals can probably be met through production of more F or Union coals in the region. It is projected by the Energy Information Agency (1996) that most of the low-sulfur and low-ash coals in the northern Rocky Mountains and Great Plains region will be produced from the Wyodak-Anderson coal bed/zone of the Paleocene Fort Union Formation in the Powder River Basin. To date, coal produced from the Wyodak-Anderson coal bed/zone, containing 0.5% sulfur, 1.2 lb SO{sub 2} per million btu, and 6% ash (mean values on an as-received basis) meet current EPA regulatory compliance. This coal bed/zone alone produced 262 million short toms of >26% of the total US coal production in 1996. Based on the current consumption rates of coal and a forecast by the EIA (1996), the Wyodak-Anderson coals are projected to produce an additional 153 million short tons a year by the year 2016. At this rate of production, high quality Wyodak-Anderson coals may be adequate to fill future energy needs.

Ellis, M.S.; Stricker, G.D.; Flores, R.M.; Bader, L.R.

1998-07-01T23:59:59.000Z

387

Sulfur and ash in paleocene Wyodak-Anderson coal in the Powder River Basin, Wyoming and Montana: A fuel source beyond 2000  

SciTech Connect

When coal-fired power plants are required by the Environmental Protection Agency (EPA) to meet more stringent sulfur emission standards (0.6 pound per million Btu) after the year 2000, most of the clean and compliant coals will come from the Powder River Basin in Wyoming and Montana. In 1996 more than 300 million short tons of these clean and compliant coals were produced from the Paleocene Fort Union Formation in the northern Rocky Mountains and Great Plains region. This is more than 30 percent of the total US coal production of 1.03 billion short tons in 1996. Future demand for clean and compliant coals can probably be met through production of more Fort Union coals in the region. It is projected by the Energy Information Agency (1996) that most of the low-sulfur and low-ash coals in the northern Rocky Mountains and Great Plains region will be produced from the Wyodak-Anderson coal bed/zone of the Paleocene Fort Union Formation in the Powder River Basin. To date, coal produced from the Wyodak-Anderson coal bed/zone, containing 0.5 percent sulfur, 1.2 lb SO{sub 2} per million btu, and 6 percent ash (mean values on an as-received basis) meet current EPA regulatory compliance. This coal bed/zone alone produced 262 million short tons or >26 percent of the total U.S. coal production in 1996. Based on the current consumption rates of coal and a forecast by the EIA (1996), the Wyodak-Anderson coals are projected to produce an additional 153 million short tons a year by the year 2016. At this rate of production, high quality Wyodak-Anderson coals may be adequate to fill our future energy needs.

Ellis, M.S.; Stricker, G.D.; Flores, R.M.; Bader, L.R. [Geological Survey, Denver, CO (United States)

1998-04-01T23:59:59.000Z

388

Final sitewide environmental assessment for continued development of Naval Petroleum Reserve No. 3 (NPR-3), Natrona County, Wyoming  

SciTech Connect

The Secretary of Energy is required by law to explore, prospect, conserve, develop, use, and operate the Naval Petroleum and Oil Shale Reserves. The Naval Petroleum Reserves Production Act of 1976 (Public Law 94-258), requires that the Naval Petroleum Reserves be produced at their maximum efficient rate (MER), consistent with sound engineering practices, for a period of six years. To fulfill this mission, DOE is proposing continued development activities which would include the drilling of approximately 250 oil production and injection (gas, water, and steam) wells, the construction of between 25 and 30 miles of associated gas, water, and steam pipelines, the installation of several production and support facilities, and the construction of between 15 and 20 miles of access roads. These drilling and construction estimates include any necessary activities related to the operation of the Rocky Mountain Oilfield Testing Center (RMOTC). The purpose of RMOTC will be to provide facilities and necessary support to government and private industry for testing and evaluating new oilfield and environmental technologies, and to transfer these results to the petroleum industry through seminars and publications. Continued development activities either have no potential to result in adverse environmental impacts or would only result in adverse impacts that could be readily mitigated. The small amounts of disturbed surface area will be reclaimed to its original natural state when production operations terminate. The preparation of an environmental impact statement is not required, and the DOE is issuing this Finding of No Significant Impact (FONSI). 73 refs.

NONE

1995-07-01T23:59:59.000Z

389

Environment LL.M. Program  

E-Print Network (OSTI)

and discussion of the most important issues of the day such as climate change, air pollution, clean coal

Azevedo, Ricardo

390

The lifetime of shape oscillations of a bubble in an unbounded, inviscid and compressible fluid with surface tension  

E-Print Network (OSTI)

General perturbations of a spherical gas bubble in a compressible and inviscid fluid with surface tension were proved in Shapiro and Weinstein (2011), in the linearized approximation, to decay exponentially, $\\sim e^{-\\Gamma t}, \\Gamma>0$, as time advances. Formal asymptotic and numerical evidence led to the conjecture that $\\Gamma \\approx \\frac{A}{\\epsilon} \\frac{We}{\\epsilon^{2}} \\exp(-B \\frac{We}{\\epsilon^2})$, where $0<\\epsilon\\ll1$ is the Mach number, We is the Weber number, and $A$ and $B$ are positive constants. In this paper, we prove this conjecture and calculate $A$ and $B$ to leading order in $\\epsilon$.

Ovidiu Costin; Saleh Tanveer; Michael I. Weinstein

2012-10-01T23:59:59.000Z

391

Fluid dynamics kill Wyoming icicle  

SciTech Connect

Control of a blowout in which a portion of the drill collar string was extending through the rotary table and into the derrick was compounded by ice building up on the derrick and substructure. However, the momentum kill procedure proved successful. Topics considered in this paper include oil wells, natural gas wells, sleeves, rotary drills, drilling rigs, fluid mechanics, occupational safety, blowouts, drill pipes, rotary drilling, ice removal, and freezing.

Grace, R.D.

1987-04-01T23:59:59.000Z

392

Mitigation Action Implementation Plan To Implement Mitigation Requirements for Cheyenne-Miracle Mile and Ault-Cheyenne Transmission Line Rebuild Project, Carbon, Albany and Laramie Counties, Wyoming, and Weld County, Colorado  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Mitigation Action Plan Mitigation Action Plan To Implement Mitigation Requirements for Cheyenne-Miracle Mile and Ault-Cheyenne Transmission Line Rebuild Project, Carbon, Albany, and Laramie Counties, Wyoming, and Weld County, Colorado September 2006 CH-MM and AU-CH Mitigation Action Plan Sept. 2006 1 Action Plan for Standard Project Practices and Mitigation Mitigation Action Identifier Resources for Which the Mitigation Will Be Implemented Responsible Party for Implementing Mitigation Action Party Responsible for Monitoring and Ensuring Compliance Land use, transportation Construction Contractor Western Maintenance The contractor will limit the movement of crews and equipment to the ROW, including access routes. The contractor will limit movement on the ROW to minimize damage to

393

Stratigraphic overview of upper Cretaceous (early Campanian-Late Maestrichtian) Montana Group, Powder River basin, Wyoming: implications for complex interplay between eustatic sea level fluctuations, sedimentation rates, and intraforeland basin subsidence  

SciTech Connect

Isopach maps of chronostratigraphic and lithostratigraphic units from the Late Cretaceous (early Campanian-late Maestrichtian) Montana Group of the Powder River basin, Wyoming, reveal a complex interplay between eustatic sea level fluctuations, sedimentation rates, and intraforeland basin subsidence rates. The Montana Group is characterized by numerous asymmetrical, coarsening- and thickening-upward, progradational deltaic, strand-plain, and/or shallow-marine deposits that thin eastward and merge into thick offshore-marine and pelagic deposits on the Pierre Shale. From oldest to youngest these are the Gammon, Shannon, and Sussex Members of the Steele Shale, the Parkman and Teapot Sandstone Members of the Mesaverde Formation, the Teckla Sandstone Member of the Lewis Shale, and the Fox Hills Sandstone. Formation tops and bentonite beds from approximately 30,000 well logs were correlated throughout the Powder River basin and adjacent areas.

Gustason, E.R.; Devine, P.E.; McClurg, J.; Rappold, C.J.

1989-03-01T23:59:59.000Z

394

Surface Treatment by Laser  

Science Journals Connector (OSTI)

By this treatment, new hardenings of the surface can occur; the surface is higher alloyed by remelting, or layers...

2014-01-01T23:59:59.000Z

395

Surface Energy,Surface Energy, Surface Tension & Shape of CrystalsSurface Tension & Shape of Crystals  

E-Print Network (OSTI)

Surface Energy,Surface Energy, Surface Tension & Shape of CrystalsSurface Tension & Shape of shapes of crystals are important: (i) growth shape and (ii) equilibrium shape Surface/interface energy surfaces. The joining of two phases creates an interface. (Two orientations of the same crystalline phase

Subramaniam, Anandh

396

A new measurement of the structure functions $P_{LL}-P_{TT}/epsilon$ and $P_{LT}$ in virtual Compton scattering at $Q^2=$ 0.33 (GeV/c)$^2$  

E-Print Network (OSTI)

The cross section of the $ep \\to e' p' \\gamma$ reaction has been measured at $Q^2 = 0.33$ (GeV/c)$^2$. The experiment was performed using the electron beam of the MAMI accelerator and the standard detector setup of the A1 Collaboration. The cross section is analyzed using the low-energy theorem for virtual Compton scattering, yielding a new determination of the two structure functions $P_LL}-P_{TT}/epsilon$ and $P_{LT}$ which are linear combinations of the generalized polarizabilities of the proton. We find somewhat larger values than in the previous investigation at the same $Q^2$. This difference, however, is purely due to our more refined analysis of the data. The results tend to confirm the non-trivial $Q^2$-evolution of the generalized polarizabilities and call for more measurements in the low-$Q^2$ region ($\\le$ 1 (GeV/c)$^2$).

The MAMI-A1 Collaboration; :; P. Janssens; L. Doria; P. Achenbach; C. Ayerbe Gayoso; D. Baumann; J. C. Bernauer; I. K. Bensafa; R. Bhm; D. Bosnar; E. Burtin; N. D'Hose; X. Defa; M. Ding; M. O. Distler; H. Fonvieille; J. Friedrich; J. M. Friedrich; G. Laveissire; M. Makek; J. Marroncle; H. Merkel; U. Mller; L. Nungesser; B. Pasquini; J. Pochodzalla; O. Postavaru; M. Potokar; D. Ryckbosch; S. Sanchez Majos; B. S. Schlimme; M. Seimetz; S. irca; G. Tamas; R. Van de Vyver; L. Van Hoorebeke; A. Van Overloop; Th. Walcher; M. Weinriefer

2008-03-06T23:59:59.000Z

397

6230 surface treatment [n  

Science Journals Connector (OSTI)

constr. (Surfacing of manufactured stone products, metals, wood,...Specific term for surface treatment of stones with hammer and chisel tooling); syn. surfacing [n] (2);stratamiento [m] de superfici...

2010-01-01T23:59:59.000Z

398

An investigation of the relationships between rainfall in northeast Brazil and sea surface temperatures of the equatorial regions of the Pacific and Atlantic Oceans  

E-Print Network (OSTI)

;"V IL FEST? GATION OF THE R). LATIONSHIPS BET))'EFN RATNFAI. L IN NOR'I'llL 'EST BRAZIL AND SEA SL'Rl'ACE TFI!PERAT)JRES CF TIIF. Eq?IA'I'ORIA), RFGIONS OF THE PACIFIC AVL' ATLANITIC OCEANS A TI?csiS OV M "u?'v'I N ARTIIL)R COCHRANE Suhrafr...Mcmli c r) / ~g. ember) (Member) May 1977 ABSTRACT An Investigation of the Relationships between Rainfall in Northeast Brazil and Sca Surface Temperatures of the Equatorial Rcgi. ons of the Pacific and Atlantic Oceans (IJay 1977) . Marvin Arthur...

Cochrane, Marvin Arthur

2012-06-07T23:59:59.000Z

399

surface science | EMSL  

NLE Websites -- All DOE Office Websites (Extended Search)

surface science surface science Leads No leads are available at this time. Metal-Insulator Photocathode Heterojunction for Directed Electron Emission. Abstract: New photocathode...

400

Heavy element radionuclides (Pu, Np, U) and {sup 137}Cs in soils collected from the Idaho National Engineering and Environmental Laboratory and other sites in Idaho, Montana, and Wyoming  

SciTech Connect

The isotopic composition of Pu in soils on and near the Idaho National Engineering and Environmental Laboratory (INEEL) has been determined in order to apportion the sources of the Pu into those derived from stratospheric fallout, regional fallout from the Nevada Test Site (NTS), and facilities on the INEEL site. Soils collected offsite in Idaho, Montana, and Wyoming were collected to further characterize NTS fallout in the region. In addition, measurements of {sup 237}Np and {sup 137}Cs were used to further identify the source of the Pu from airborne emissions at the Idaho Chemical Processing Plant (ICPP) or fugitive releases from the Subsurface Disposal Area (SDA) in the Radioactive Waste Management Complex (RWMC). There is convincing evidence from this study that {sup 241}Am, in excess of that expected from weapons-grade Pu, constituted a part of the buried waste at the SDA that has subsequently been released to the environment. Measurements of {sup 236}U in waters from the Snake River Plain aquifer and a soil core near the ICPP suggest that this radionuclide may be a unique interrogator of airborne releases from the ICPP. Neptunium-237 and {sup 238}Pu activities in INEEL soils suggest that airborne releases of Pu from the ICPP, over its operating history, may have recently been overestimated.

Beasley, T.M.; Rivera, W. Jr. [Dept. of Energy, New York, NY (United States). Environmental Measurements Lab.; Kelley, J.M.; Bond, L.A. [Pacific Northwest National Lab., Richland, WA (United States); Liszewski, M.J. [Bureau of Reclamation (United States); Orlandini, K.A. [Argonne National Lab., IL (United States)

1998-10-01T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


401

Computer aided surface representation  

SciTech Connect

The aims of this research are the creation of new surface forms and the determination of geometric and physical properties of surfaces. The full sweep from constructive mathematics through the implementation of algorithms and the interactive computer graphics display of surfaces is utilized. Both three-dimensional and multi- dimensional surfaces are considered. Particular emphasis is given to the scientific computing solution of Department of Energy problems. The methods that we have developed and that we are proposing to develop allow applications such as: Producing smooth contour maps from measured data, such as weather maps. Modeling the heat distribution inside a furnace from sample measurements. Terrain modeling based on satellite pictures. The investigation of new surface forms includes the topics of triangular interpolants, multivariate interpolation, surfaces defined on surfaces and monotone and/or convex surfaces. The geometric and physical properties considered include contours, the intersection of surfaces, curvatures as a interrogation tool, and numerical integration.

Barnhill, R E

1987-11-01T23:59:59.000Z

402

Surface Chemical Dynamics  

NLE Websites -- All DOE Office Websites (Extended Search)

Surface Chemical Dynamics Surface Chemical Dynamics The goal of the Surface Chemical Dynamics Program is to elucidate the underlying physical processes that determine the products (selectivity) and yield (efficiency) of chemical transformations relevant to energy-related chemistry on catalytic and nanostructured surfaces. Achieving this end requires understanding the evolution of the reactant-molecule/surface complex as molecules adsorb, bonds dissociate, surface species diffuse, new bonds form and products desorb. The pathways and time scales of these processes are ultimately determined by a multidimensional potential energy surface that is a function of the geometric and electronic structures of the surface and the reactant, product, intermediate and transition-state molecular and atomic species.

403

surface chemistry | EMSL  

NLE Websites -- All DOE Office Websites (Extended Search)

surface chemistry surface chemistry Leads No leads are available at this time. FeSSZ-13 as an NH3-SCR Catalyst: A Reaction Kinetics and FTIRMssbauer Spectroscopic Study....

404

SURFACE TENSION DRIVEN CONVECTION  

E-Print Network (OSTI)

SURFACE TENSION DRIVEN CONVECTION DIJKSTRA, SENGUL, WANG INTRODUCTION LINEAR THEORY MAIN THEOREMS CONCLUDING REMARKS DYNAMIC TRANSITIONS OF SURFACE TENSION DRIVEN CONVECTION H.Dijkstra T. Sengul S. Wang #12;SURFACE TENSION DRIVEN CONVECTION DIJKSTRA, SENGUL, WANG INTRODUCTION LINEAR THEORY MAIN THEOREMS

Wang, Shouhong

405

Ion Surface Engineering  

E-Print Network (OSTI)

Ion Surface Engineering Southwest Research Institute® San Antonio, Texas surfaceengineering.swri.com #12;he ion surface engineering program at Southwest Research Institute (SwRI® ) is dedicated, and the Defense Advanced Research Projects Agency. SwRI's ion surface engineering activities include: s Thin

Chapman, Clark R.

406

Surface Temperature of IGUs  

NLE Websites -- All DOE Office Websites (Extended Search)

117 117 Surface Temperatures of Insulated Glazing Units: Infrared Thermography Laboratory Measurements Brent T. Griffith, Daniel Türler, and Dariush Arasteh Building Technologies Program Environmental Energy Technologies Division Lawrence Berkeley National Laboratory University of California Berkeley, CA 94720 USA Fax: 510-486-6046, email: D_Arasteh@lbl.gov Abstract Data are presented for the distribution of surface temperatures on the warm-side surface of seven different insulated glazing units. Surface temperatures are measured using infrared thermography and an external referencing technique. This technique allows detailed mapping of surface temperatures that is non-intrusive. The glazings were placed between warm and cold environmental chambers that were operated at conditions

407

Surface cleanliness measurement procedure  

DOE Patents (OSTI)

A procedure and tools for quantifying surface cleanliness are described. Cleanliness of a target surface is quantified by wiping a prescribed area of the surface with a flexible, bright white cloth swatch, preferably mounted on a special tool. The cloth picks up a substantial amount of any particulate surface contamination. The amount of contamination is determined by measuring the reflectivity loss of the cloth before and after wiping on the contaminated system and comparing that loss to a previous calibration with similar contamination. In the alternative, a visual comparison of the contaminated cloth to a contamination key provides an indication of the surface cleanliness.

Schroder, Mark Stewart (Hendersonville, NC); Woodmansee, Donald Ernest (Simpsonville, SC); Beadie, Douglas Frank (Greenville, SC)

2002-01-01T23:59:59.000Z

408

GR via Characteristic Surfaces  

E-Print Network (OSTI)

We reformulate the Einstein equations as equations for families of surfaces on a four-manifold. These surfaces eventually become characteristic surfaces for an Einstein metric (with or without sources). In particular they are formulated in terms of two functions on R4xS2, i.e. the sphere bundle over space-time, - one of the functions playing the role of a conformal factor for a family of associated conformal metrics, the other function describing an S2's worth of surfaces at each space-time point. It is from these families of surfaces themselves that the conformal metric - conformal to an Einstein metric - is constructed; the conformal factor turns them into Einstein metrics. The surfaces are null surfaces with respect to this metric.

Simonetta Frittelli; Carlos Kozameh; Ted Newman

1995-02-11T23:59:59.000Z

409

Maximization of permanent trapping of CO{sub 2} and co-contaminants in the highest-porosity formations of the Rock Springs Uplift (Southwest Wyoming): experimentation and multi-scale modeling  

SciTech Connect

Under this project, a multidisciplinary team of researchers at the University of Wyoming combined state-of-the-art experimental studies, numerical pore- and reservoir-scale modeling, and high performance computing to investigate trapping mechanisms relevant to geologic storage of mixed scCO{sub 2} in deep saline aquifers. The research included investigations in three fundamental areas: (i) the experimental determination of two-?phase flow relative permeability functions, relative permeability hysteresis, and residual trapping under reservoir conditions for mixed scCO{sub 2}-?brine systems; (ii) improved understanding of permanent trapping mechanisms; (iii) scientifically correct, fine grid numerical simulations of CO{sub 2} storage in deep saline aquifers taking into account the underlying rock heterogeneity. The specific activities included: (1) Measurement of reservoir-?conditions drainage and imbibition relative permeabilities, irreducible brine and residual mixed scCO{sub 2} saturations, and relative permeability scanning curves (hysteresis) in rock samples from RSU; (2) Characterization of wettability through measurements of contact angles and interfacial tensions under reservoir conditions; (3) Development of physically-?based dynamic core-?scale pore network model; (4) Development of new, improved high-? performance modules for the UW-?team simulator to provide new capabilities to the existing model to include hysteresis in the relative permeability functions, geomechanical deformation and an equilibrium calculation (Both pore-? and core-?scale models were rigorously validated against well-?characterized core-? flooding experiments); and (5) An analysis of long term permanent trapping of mixed scCO{sub 2} through high-?resolution numerical experiments and analytical solutions. The analysis takes into account formation heterogeneity, capillary trapping, and relative permeability hysteresis.

Piri, Mohammad

2014-03-31T23:59:59.000Z

410

Surface Impedance in the Surface Superconducting State  

Science Journals Connector (OSTI)

To enable a simple calculation of the microwave surface resistance, the surface superconducting state is approximated by a model in which a layer of uniform order parameter is considered superposed on the normal bulk. Appropriate values for the order parameter and thickness of this layer were chosen with the use of the numerical solutions of the Ginsburg-Landau equations by Fink and Kessinger. A Gorter-Casimir temperature dependence was used for the order parameter and the Maki temperature dependence for ?. Our experiments on Pb-In alloys at frequencies of 9.5, 23, and 55 Gc/sec are in good agreement with the calculations.

Allen Rothwarf; Jonathan I. Gittleman; Bruce Rosenblum

1967-03-10T23:59:59.000Z

411

Tools for Surface Analysis | EMSL  

NLE Websites -- All DOE Office Websites (Extended Search)

surface analysis methods. Guides to surface analysis methods (see below) - (XPS, AES, SIMS, etc.) Data useful for surface analysis (see below) - (binding energies, sputter rates...

412

Sitewide environmental assessment EA-1236 for preparation for transfer of ownership of Naval Petroleum Reserve No. 3 (NPR-3), Natrona County, Wyoming  

SciTech Connect

The Proposed Action includes the following principal elements: (1) The accelerated plugging and abandoning of uneconomic wells over the next six years. Uneconomic wells are operating wells which can no longer cover their direct and indirect costs. DOE estimates that there are 900 wells to be plugged and abandoned over the next six years, leaving approximately 200 wells for transfer by 2003. (2) Complete reclamation and restoration of abandoned sites. Restoration would include dismantling surface facilities, batteries, roads, test satellites, electrical distribution systems and associated power poles, when they are no longer needed for production. Soil contaminated by hydrocarbons would be biologically treated. Roads, facilities, batteries, and well sites would be ripped up, recontoured, disked and seeded with native vegetation. (3) The continued development of the Rocky Mountain Oilfield Testing Center (RMOTC) through the establishment of a consortium of university, state and private institutions. RMOTC would continue to provide facilities and support to government and private industry for testing and evaluating new oilfield and environmental technologies. Based on the findings of the EA, DOE has determined that the proposal does not constitute a major Federal action significantly affecting the quality of the human environment within the meaning of NEPA. Therefore, an environmental impact statement is not required.

NONE

1998-04-01T23:59:59.000Z

413

ARM - Measurement - Surface condition  

NLE Websites -- All DOE Office Websites (Extended Search)

condition condition ARM Data Discovery Browse Data Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send Measurement : Surface condition State of the surface, including vegetation, land use, surface type, roughness, and such; often provided in model output. Categories Surface Properties Instruments The above measurement is considered scientifically relevant for the following instruments. Refer to the datastream (netcdf) file headers of each instrument for a list of all available measurements, including those recorded for diagnostic or quality assurance purposes. ARM Instruments NAV : Navigational Location and Attitude SURFLOG : SGP Surface Conditions Observations by Site Technicians S-TABLE : Stabilized Platform MET : Surface Meteorological Instrumentation

414

Surface Water Quality Standards  

E-Print Network (OSTI)

SURFACE WATER QUALITY STANDARDS AAs part of the ongoing program to manage Texaswater quality, the Texas Commission onEnvironmental Quality (TCEQ) is currently review- ing the Texas Surface Water Quality Standards, including the standards... for contact recreation use. Preliminary public comment plus input from the Surface Water Quality Standards Advisory Work Group have provided guidance on options available for revising the standards, said Jim Davenport, leader of the TCEQ Water Quality...

Wythe, Kathy

2007-01-01T23:59:59.000Z

415

Surface modification to waveguides  

DOE Patents (OSTI)

A method of treating the interior surfaces of a waveguide to improve power transmission comprising the steps of mechanically polishing to remove surface protrusions; electropolishing to remove embedded particles; ultrasonically cleaning to remove any residue; coating the interior waveguide surfaces with an alkyd resin solution or electrophoretically depositing carbon lamp black suspended in an alkyd resin solution to form a 1.mu. to 5.mu. thick film; vacuum pyrolyzing the film to form a uniform adherent carbon coating.

Timberlake, John R. (Allentown, NJ); Ruzic, David N. (Kendall Park, NJ); Moore, Richard L. (Princeton, NJ); Cohen, Samuel A. (Pennington, NJ); Manos, Dennis M. (Lawrenceville, NJ)

1983-01-01T23:59:59.000Z

416

Kicked surface muon beams  

Science Journals Connector (OSTI)

The possibility of splitting a surface muon beam into three separate components using an ... and could be very effectively used to provide muons to time differential ?SR experiments.

J. L. Beveridge

1992-01-01T23:59:59.000Z

417

EMSL - ion surfaces  

NLE Websites -- All DOE Office Websites (Extended Search)

surfaces en Physical Properties of Ambient and Laboratory-Generated Secondary Organic Aerosol. http:www.emsl.pnl.govemslwebpublicationsphysical-properties-ambient-and-laborato...

418

EMSL - surface chemistry  

NLE Websites -- All DOE Office Websites (Extended Search)

surface-chemistry en FeSSZ-13 as an NH3-SCR Catalyst: A Reaction Kinetics and FTIRMssbauer Spectroscopic Study. http:www.emsl.pnl.govemslwebpublications...

419

HotPatch Web Gateway: Statistical Analysis of Unusual Patches on Protein Surfaces  

DOE Data Explorer (OSTI)

HotPatch finds unusual patches on the surface of proteins, and computes just how unusual they are (patch rareness), and how likely each patch is to be of functional importance (functional confidence (FC).) The statistical analysis is done by comparing your protein's surface against the surfaces of a large set of proteins whose functional sites are known. Optionally, HotPatch can also write a script that will display the patches on the structure, when the script is loaded into some common molecular visualization programs. HotPatch generates complete statistics (functional confidence and patch rareness) on the most significant patches on your protein. For each property you choose to analyze, you'll receive an email to which will be attached a PDB-format file in which atomic B-factors (temp. factors) are replaced by patch indices; and the PDB file's Header Remarks will give statistical scores and a PDB-format file in which atomic B-factors are replaced by the raw values of the property used for patch analysis (for example, hydrophobicity instead of hydrophobic patches). [Copied with edits from http://hotpatch.mbi.ucla.edu/

Pettit, Frank K.; Bowie, James U.(DOE-Molecular Biology Institute)

420

Final sitewide environmental assessment for preparation for transfer of ownership of Naval Petroleum Reserve No. 3 (NPR-3), Natrona County, Wyoming  

SciTech Connect

The Secretary of Energy is authorized to produce the Naval Petroleum Reserves No. 3 (NPR-3) at its maximum efficient rate (MER) consistent with sound engineering practices, for a period extending to April 5, 2000 subject to extension. Production at NPR-3 peaked in 1981 and has declined since until it has become a mature stripper field, with the average well yielding less than 2 barrels per day. The Department of Energy (DOE) has decided to discontinue Federal operation of NPR-3 at the end of its life as an economically viable oilfield currently estimated to be 2003. Although changes in oil and gas markets or shifts in national policy could alter the economic limit of NPR-3, it productive life will be determined largely by a small and declining reserve base. DOE is proposing certain activities over the next six years in anticipation of the possible transfer of NPR-3 out of Federal operation. These activities would include the accelerated plugging and abandoning of uneconomic wells, complete reclamation and restoration of abandoned sites including dismantling surface facilities, batteries, roads, test satellites, electrical distribution systems and associated power poles, when they are no longer needed for production, and the continued development of the Rocky Mountain Oilfield Testing Center (RMOTC). DOE has prepared this environmental assessment that analyzes the proposed plugging and abandonment of wells, field restoration and development of RMOTC. Based on the analysis in the EA, the DOE finds that the proposed action is not a major Federal action significantly affecting the quality of the human environment within the meaning of the National Environmental Policy Act of 1969 (NEPA). The preparation of an environmental impact statement is not required, and DOE is issuing this Finding of No Significant Impact (FONSI).

NONE

1998-04-01T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


421

LL.M. PROGRAM EARN YOUR MASTER  

E-Print Network (OSTI)

pursue your interests and career ambitions in six distinct programs ­ Energy, Environment and Natural-largest city and a global leader in healthcare, energy, international business and other disciplines. · We have of Law Center alumni live and work in the greater Houston area. · Energy corporations, equipment

Azevedo, Ricardo

422

Dissolution Kinetics, Step and Surface Morphology of Magnesite (104) Surfaces in Acidic Aqueous Solution at 60 C by Atomic Force Microscopy under Defined Hydrodynamic Conditions  

Science Journals Connector (OSTI)

Department of Geology and Geophysics, University of Wyoming, Laramie, Wyoming 82071, Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1 3QZ, United Kingdom, and Geoscience and Environmental Technology Division, Lawrence Livermore National Laboratory, L-202, Livermore, California 94550 ... For an environmentally important example, soil specimens in the Vadose Zone at the Hanford, Washington (USA) radioactive waste storage facility have been found to contain calcium carbonate as a ubiquitous mineralogical component. ... 4,5 The strategy involves the dissolution of alkaline earth silicate minerals in aquifers coupled with the precipitation of alkaline earth and other carbonates during and following the injection of CO2 into the subsurface environment. ...

Steven R. Higgins; Lawrence H. Boram; Carrick M. Eggleston; Barry A. Coles; Richard G. Compton; Kevin G. Knauss

2002-06-12T23:59:59.000Z

423

de Sitter Extremal Surfaces  

E-Print Network (OSTI)

We study extremal surfaces in de Sitter space in the Poincare slicing in the upper patch, anchored on spatial subregions at the future boundary ${\\cal I}^+$, restricted to constant boundary Euclidean time slices (focussing on strip subregions). We find real extremal surfaces of minimal area as the boundaries of past lightcone wedges of the subregions in question: these are null surfaces with vanishing area. We find also complex extremal surfaces as complex extrema of the area functional, and the area is not always real-valued. In $dS_4$ the area is real and has some structural resemblance with entanglement entropy in a dual $CFT_3$. There are parallels with analytic continuation from the Ryu-Takayanagi expressions for holographic entanglement entropy in $AdS$. We also discuss extremal surfaces in the $dS$ black brane and the de Sitter "bluewall" studied previously. The $dS_4$ black brane complex surfaces exhibit a real finite cutoff-independent extensive piece. In the bluewall geometry, there are real surface...

Narayan, K

2015-01-01T23:59:59.000Z

424

Surfaces and roughening  

Science Journals Connector (OSTI)

Some recent results in the application of statistical mechanics to surfaces are discussed. Only exactly soluable models are described. First, we consider phase separation below the critical temperature in unia...

D. B. Abraham

1984-03-01T23:59:59.000Z

425

Entropy and surfaceness  

E-Print Network (OSTI)

The layer of the Earth's atmosphere which contains clouds and weather systems is a thin thermoregulatory surface. It maintains an exact energy budget between the Earth and the Sun. Recent work in theoretical physics is ...

Casper, James Kyle

1997-01-01T23:59:59.000Z

426

Structured surfaces for hemocompatibility  

E-Print Network (OSTI)

The rise of micro- and nano-technologies has brought to light intriguing examples of scale-driven performance in a diverse array of fields. The quest to create highly hydrophobic surfaces is one such field. The application ...

Schrauth, Anthony J

2005-01-01T23:59:59.000Z

427

Designing biomimetic antifouling surfaces  

Science Journals Connector (OSTI)

...extreme environment where wave-swept rocky coasts place substantial hydrodynamic forces...2000) have been studied and modelled for flat surfaces using two- and three-dimensional...to biocorrosion, resulting in increased safety and financial concerns (Busalmen et al...

2010-01-01T23:59:59.000Z

428

ARM - Measurement - Surface albedo  

NLE Websites -- All DOE Office Websites (Extended Search)

albedo albedo ARM Data Discovery Browse Data Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send Measurement : Surface albedo The fraction of incoming solar radiation at a surface (i.e. land, cloud top) that is effectively reflected by that surface. Categories Surface Properties Instruments The above measurement is considered scientifically relevant for the following instruments. Refer to the datastream (netcdf) file headers of each instrument for a list of all available measurements, including those recorded for diagnostic or quality assurance purposes. ARM Instruments MFR : Multifilter Radiometer External Instruments ETA : Eta Model Runs ECMWFDIAG : European Centre for Medium Range Weather Forecasts Diagnostic Analyses ECMWF : European Centre for Medium Range Weather Forecasts Model

429

Bespoke Materials Surfaces  

NLE Websites -- All DOE Office Websites (Extended Search)

Bespoke Materials Surfaces Bespoke Materials Surfaces Background The Department of Energy (DOE) has established performance and efficiency goals for power generation systems which will improve the ability of the U.S. energy sector to produce electricity efficiently with less impact to the environment. Power systems showing the most promise for reaching these goals require corrosion resistance alloys able to perform at very high pressures and temperatures. Increasing both the

430

Surface Water Quality Standards (Kansas)  

Energy.gov (U.S. Department of Energy (DOE))

This act states regulations for the quality of surface water in the state. It also states designated uses of classified surface waters, surface water quality criteria and an antidegradation policy...

431

Surface Water Management Areas (Virginia)  

Energy.gov (U.S. Department of Energy (DOE))

This legislation establishes surface water management areas, geographically defined surface water areas in which the State Water Control Board has deemed the levels or supply of surface water to be...

432

Dual surface interferometer  

DOE Patents (OSTI)

A double-pass interferometer is provided which allows direct measurement of relative displacement between opposed surfaces. A conventional plane mirror interferometer may be modified by replacing the beam-measuring path cube-corner reflector with an additional quarterwave plate. The beam path is altered to extend to an opposed plane mirrored surface and the reflected beam is placed in interference with a retained reference beam split from dual-beam source and retroreflected by a reference cube-corner reflector mounted stationary with the interferometer housing. This permits direct measurement of opposed mirror surfaces by laser interferometry while doubling the resolution as with a conventional double-pass plane mirror laser interferometer system.

Pardue, R.M.; Williams, R.R.

1980-09-12T23:59:59.000Z

433

Wyoming, Michigan: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

133602°, -85.7053085° 133602°, -85.7053085° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.9133602,"lon":-85.7053085,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

434

Alta, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

8103°, -111.0368866° 8103°, -111.0368866° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.7538103,"lon":-111.0368866,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

435

Wilson, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

5007599°, -110.8752112° 5007599°, -110.8752112° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.5007599,"lon":-110.8752112,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

436

Utah Nevada California Arizona Idaho Oregon Wyoming  

U.S. Energy Information Administration (EIA) Indexed Site

E. Great Basin Oil and Gas Fields E. Great Basin Oil and Gas Fields 2004 BOE Reserve Class No 2004 Reserves 0.1 - 10 MBOE 10.1 - 100 MBOE 100.1 - 1,000 MBOE 1,000.1 - 10,000 MBOE 10,000.1 - 100,000 MBOE > 100,000 MBOE 0 2 4 1 3 Miles The mapped oil and gas field boundary outlines were created by the Reserves and Production Division, Office of Oil and Gas, Energy Information Administration pursuant to studies required by Section 604 of the Energy Policy and Conservation Act Amendments of 2000 (P.L. 106-469). The boundaries are not informed by subsurface structural information. The data and methods used in their creation are detailed in a report, "Scientific Inventory of Onshore Federal Lands' Oil and Gas Resources and Reserves and the Extent and Nature of Restrictions to Their Development", prepared by the US Departments of Interior,

437

Garland, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

796741°, -108.6604043° 796741°, -108.6604043° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.7796741,"lon":-108.6604043,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

438

Edgerton, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

130271°, -106.249467° 130271°, -106.249467° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.4130271,"lon":-106.249467,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

439

Cody, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

5263422°, -109.0565308° 5263422°, -109.0565308° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.5263422,"lon":-109.0565308,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

440

Jackson, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

799291°, -110.7624282° 799291°, -110.7624282° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":43.4799291,"lon":-110.7624282,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


441

Wyoming, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

11691°, -84.4657758° 11691°, -84.4657758° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":39.2311691,"lon":-84.4657758,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

442

Afton, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

82°, -110.9318687° 82°, -110.9318687° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.7249282,"lon":-110.9318687,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

443

Wyoming-Colorado Natural Gas Plant Processing  

Annual Energy Outlook 2012 (EIA)

2012 2013 View History Natural Gas Processed (Million Cubic Feet) 69,827 75,855 2012-2013 Total Liquids Extracted (Thousand Barrels) 5,481 5,903 2012-2013 NGPL Production, Gaseous...

444

Energy Incentive Programs, Wyoming | Department of Energy  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Rebates for motors larger than 200 hp may be negotiated. What load managementdemand response options are available to me? PacifiCorpRocky Mountain Power offers the Energy...

445

Wyoming Natural Gas Gross Withdrawals and Production  

U.S. Energy Information Administration (EIA) Indexed Site

162,990 167,927 164,145 1991-2014 From Gas Wells NA NA NA NA NA NA 1991-2014 From Oil Wells NA NA NA NA NA NA 1991-2014 From Shale Gas Wells NA NA NA NA NA NA 2007-2014 From...

446

Wyoming Natural Gas Gross Withdrawals and Production  

Gasoline and Diesel Fuel Update (EIA)

U.S. Offshore U.S. State Offshore Federal Offshore U.S. Alaska Alaska Onshore Alaska Offshore Alaska State Offshore Federal Offshore Gulf of Mexico Federal Offshore Alabama Federal...

447

National Park Service - Yellowstone National Park, Wyoming |...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

isolated from the commercial power grid, and power has been traditionally supplied by propane generators. The generators are now only a backup system for a 7kW photovoltaic (PV)...

448

Wyoming Underground Natural Gas Storage - All Operators  

Gasoline and Diesel Fuel Update (EIA)

Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New...

449

Wyoming Natural Gas Repressuring (Million Cubic Feet)  

U.S. Energy Information Administration (EIA) Indexed Site

1970's 8,563 8,046 8,412 12,643 11,796 6,892 6,149 14,163 14,484 23,768 1980's 39,895 43,871 35,168 45,870 46,291 48,107 52,977 66,604 51,982 52,783 1990's 56,581 90,465 81,712...

450

Powell, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

ppingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":"ROADMAP","SATELLITE","HYBRID","TERRAIN","geoservice":"google","maxzoom":false,"width":"600px","height":"350px","ce...

451

Douglas, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

105.3822069° 105.3822069° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.7596897,"lon":-105.3822069,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

452

Ralston, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

160632°, -108.8645788° 160632°, -108.8645788° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":44.7160632,"lon":-108.8645788,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

453

Mills, Wyoming: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

405206°, -106.3658613° 405206°, -106.3658613° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":42.8405206,"lon":-106.3658613,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

454

Utah Nevada California Arizona Idaho Oregon Wyoming  

U.S. Energy Information Administration (EIA) Indexed Site

Liquids Reserve Class Liquids Reserve Class No 2004 Liquids Reserves 0.1 - 10 Mbbl 10.1 - 100 Mbbl 100.1 - 1,000 Mbbl 1,000.1 - 10,000 Mbbl > 10,000 Mbbl 0 2 4 1 3 Miles The mapped oil and gas field boundary outlines were created by the Reserves and Production Division, Office of Oil and Gas, Energy Information Administration pursuant to studies required by Section 604 of the Energy Policy and Conservation Act Amendments of 2000 (P.L. 106-469). The boundaries are not informed by subsurface structural information. The data and methods used in their creation are detailed in a report, "Scientific Inventory of Onshore Federal Lands' Oil and Gas Resources and Reserves and the Extent and Nature of Restrictions to Their Development", prepared by the US Departments of Interior,

455

Laser surface cleaning  

SciTech Connect

The objective of this work is a laboratory demonstration that red-lead primer and two-part epoxy paints can be stripped from concrete and metal surfaces using surface cleaning systems based on pulsed-repetition CO{sub 2} lasers. The three goals are to: (1) demonstrate coatings removal, including surface pore cleaning; (2) demonstrate that there is negligible release of ablated contaminants to the environment; and (3) demonstrate that the process will generate negligible amounts of additional waste compared to competing technologies. Phase 1 involved site visits to RMI and Fernald to assess the cleaning issues for buildings and parts. In addition, Phase 1 included detailed designs of a more powerful system for industrial cleaning rates, including laser, articulating optics, ablated-material capture suction nozzle attached to a horizontal raster scanner for floor cleaning, and filtration system. Some concept development is also being done for using robots, and for parts cleaning. In Phase 2 a transportable 6 kW system will be built and tested, with a horizontal surface scanner for cleaning paint from floors. The laboratory tests will again be instrumented. Some concept development will continue for using robots, and for parts cleaning. This report describes Phase 1 results.

Freiwald, J.G.; Freiwald, D.A.

1994-12-31T23:59:59.000Z

456

Decontaminating metal surfaces  

DOE Patents (OSTI)

Radioactively contaminated surfaces can be electrolytically decontaminated with greatly increased efficiencies by using electrolytes containing higher than heretofore conventional amounts of nitrate, e.g., >600 g/1 of NaNO/sub 3/, or by using nitrate-containing electrolytes which are acidic, e.g., of a pH < 6.

Childs, E.L.

1984-01-23T23:59:59.000Z

457

Decontaminating metal surfaces  

DOE Patents (OSTI)

Radioactively contaminated surfaces can be electrolytically decontaminated with greatly increased efficiencies by using electrolytes containing higher than heretofore conventional amounts of nitrate, e.g.,>600 g/l of NaNO.sub.3, or by using nitrate-containing electrolytes which are acidic, e.g., of a pH<6.

Childs, Everett L. (Boulder, CO)

1984-11-06T23:59:59.000Z

458

Onset of surface superconductivity  

SciTech Connect

We examine the onset of superconductivity in the surface region of a metal. Surface effects are particularly important in systems with a short bulk coherence length {xi}{sub 0}. We show that, to the accuracy of the calculation, the surface transition temperature {ital T}{sub {ital c}{ital S}} equals the bulk transition temperature {ital T}{sub {ital c}{ital B}} if the electron-electron interaction is of the standard BCS form, i.e., a single attractive square well, extending up to some critical energy {omega}{sub 0} much smaller than the Fermi energy {var epsilon}{sub {ital F}}. If one takes into account, in addition, the repulsive part of the interaction extending beyond {omega}{sub 0} up to energies of order {var epsilon}{sub {ital F}}, then one may have {ital T}{sub {ital c}{ital S}}{gt}{ital T}{sub {ital c}{ital B}} in certain cases, although, due to restrictions imposed on the parameter values by various physical conditions, the relative increase of {ital T}{sub {ital c}} is very small, typically 10{sup {minus}3}, at least in the weak coupling limit. However, we also find a considerable gap enhancement, of order 20%, near the surface which could be of interest for critical-current measurements. Therefore we suggest an experimental reexamination of systems with short {xi}{sub 0}, i.e., superconducting degenerate semiconductors and the new high-{ital T}{sub {ital c}} oxides in confined geometries where the surface-to-volume ratio is non-negligible.

Giamarchi, T.; Beal-Monod, M.T. (Laboratoire de Physique des Solides, Universite Paris-Sud 91405 Orsay, (France)); Valls, O.T. (Laboratoire de Physique des Solides, Universite Paris-Sud, 91405 Orsay, (France) Center for the Science and Application of Superconductivity, School of Physics and Astronomy, University of Minnesota, Minneapolis, Minnesota 55455 (USA))

1990-06-01T23:59:59.000Z

459

Smart, passive sun facing surfaces  

DOE Patents (OSTI)

An article adapted for selectively utilizing solar radiation comprises an absorptive surface and a reflective surface, the absorptive surface and the reflective surface oriented to absorb solar radiation when the sun is in a relatively low position, and to reflect solar radiation when the sun is in a relatively high position. 17 figs.

Hively, L.M.

1996-04-30T23:59:59.000Z

460

Smart, passive sun facing surfaces  

DOE Patents (OSTI)

An article adapted for selectively utilizing solar radiation comprises an absorptive surface and a reflective surface, the absorptive surface and the reflective surface oriented to absorb solar radiation when the sun is in a relatively low position, and to reflect solar radiation when the sun is in a relatively high position.

Hively, Lee M. (Knoxville, TN)

1996-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


461

Surface decontamination compositions and methods  

DOE Patents (OSTI)

Clay-based compositions capable of absorbing contaminants from surfaces or objects having surface faces may be applied to a surface and later removed, the removed clay-based compositions absorbing at least a portion of the contaminant from the surface or object to which it was applied.

Wright; Karen E. (Idaho Falls, ID); Cooper, David C. (Idaho Falls, ID); Peterman, Dean R. (Idaho Falls, ID); Demmer, Ricky L. (Idaho Falls, ID); Tripp, Julia L. (Pocatello, ID); Hull, Laurence C. (Idaho Falls, ID)

2011-03-29T23:59:59.000Z

462

while ll 6= ERROR do tcl tuple of ctcl corresponding to ll.tid cr  

E-Print Network (OSTI)

corresponding to cdb.tid cr lca #12;rst tuple t of li cl such that t.class >= ca.name caf while lca 6= ERROR and lca.class = ca.name do lia tuple of logical images corresponding to lca.tid cr lcb #12;rst tuple next tuple of li cl in alphabetic order can lca next tuple of li cl in alphabetic order can Plan P4P

Samet, Hanan

463

Pocked surface neutron detector  

DOE Patents (OSTI)

The detection efficiency, or sensitivity, of a neutron detector material such as of Si, SiC, amorphous Si, GaAs, or diamond is substantially increased by forming one or more cavities, or holes, in its surface. A neutron reactive material such as of elemental, or any compound of, .sup.10 B, .sup.6 Li, .sup.6 LiF, U, or Gd is deposited on the surface of the detector material so as to be disposed within the cavities therein. The portions of the neutron reactive material extending into the detector material substantially increase the probability of an energetic neutron reaction product in the form of a charged particle being directed into and detected by the neutron detector material.

McGregor, Douglas (Whitmore Lake, MI); Klann, Raymond (Bolingbrook, IL)

2003-04-08T23:59:59.000Z

464

Laser surface cleaning  

SciTech Connect

Decontamination of contaminated metal and material recycle, two of 31 priority needs identified by the D&D focus group, are the most promising applications for laser ablation within the DOE complex. F2 Associates has developed a robotic laser ablation system that is capable of high contamination rates, waste volume reduction, surface pore cleaning, and real-time characterization of materials. It is being demonstrated that this system will be the most cost-effective technology for metal decontamination and material recycle.

Crivella, E.C.; Freiwald, J.; Freiwald, D.A.

1996-12-31T23:59:59.000Z

465

Distance transforms on anisotropic surfaces for surface roughness measurement  

Science Journals Connector (OSTI)

The Distance Transform on Curved Space (DTOCS) calculates distances along a gray-level height map surface In this article, the DTOCS is generalized for surfaces represented as real altitude data in an anisotropic grid The distance transform combined ...

Leena Ikonen; Toni Kuparinen; Eduardo Villanueva; Pekka Toivanen

2006-10-01T23:59:59.000Z

466

HAPTIC RENDERING OF SURFACE-TO-SURFACE SCULPTED MODEL INTERACTION  

E-Print Network (OSTI)

and second surface partial derivatives for both surfaces, an efficient kilohertz rate computation, the local Newton formulation, and the new velocity formulation. Figure 1: Well-behaved finger penetration into a surface shown by the "penetration cylinder". The velocity method and modified New- ton method return

Utah, University of

467

A surface ionization source  

E-Print Network (OSTI)

The Einzel Lens. 2 The Quadrupole Triplet . . 3. The Beam Scanner. . . 4 The Four-plate Detectors and Faraday Cups. III TESTING AND OPTIMIZING THE BEAM LINE 10 12 13 A. Initial Results. IV THE THEORY OF SURFACE IONIZATION . . . . . V ION SOURCES. 21... aperture and through a beam scanner. The scanner translates the beam's cross-section to an image visible on the oscilloscope A movable Faraday cup connected to a sensitive electrometer is used to maximize the beam transmission at the opening into the 2...

Buzatu, Daniel J.

2012-06-07T23:59:59.000Z

468

The Atacama Surface Solar Maximum  

Science Journals Connector (OSTI)

Solar radiation reaching the earth's surface is one of the major drivers of climate dynamics. By setting the surface energy balance, downwelling solar radiation indirectly heats the atmosphere and controls the hydrological cycle. Besides its critical ...

Roberto Rondanelli; Alejandra Molina; Mark Falvey

469

Chemical enhancement of surface deposition  

DOE Patents (OSTI)

A method and apparatus for increasing the deposition of ions onto a surface, such as the adsorption of uranium ions on the detecting surface of a radionuclide detector. The method includes the step of exposing the surface to a complexing agent, such as a phosphate ion solution, which has an affinity for the dissolved species to be deposited on the surface. This provides, for example, enhanced sensitivity of the radionuclide detector.

Patch, Keith D. (Lexington, MA); Morgan, Dean T. (Sudbury, MA)

1997-07-29T23:59:59.000Z

470

Chemical enhancement of surface deposition  

DOE Patents (OSTI)

A method and apparatus are disclosed for increasing the deposition of ions onto a surface, such as the adsorption of uranium ions on the detecting surface of a radionuclide detector. The method includes the step of exposing the surface to a complexing agent, such as a phosphate ion solution, which has an affinity for the dissolved species to be deposited on the surface. This provides, for example, enhanced sensitivity of the radionuclide detector. 16 figs.

Patch, K.D.; Morgan, D.T.

1997-07-29T23:59:59.000Z

471

SUPER HARD SURFACED POLYMERS  

SciTech Connect

High energy ion beam surface treatments were applied to a selected group of polymers. Of the six materials in the present study, four were thermoplastics (polycarbonate, polyethylene, polyethylene terephthalate, and polystyrene) and two were thermosets (epoxy and polyimide). The particular epoxy evaluated in this work is one of the resins used in formulating fiber reinforced composites for military helicopter blades. Measures of mechanical properties of the near surface regions were obtained by nanoindentation hardness and pin on disk wear. Attempts were also made to measure erosion resistance by particle impact. All materials were hardness tested. Pristine materials were very soft, having values in the range of approximately 0.1 to 0.5 GPa. Ion beam treatment increased hardness by up to 50 times compared to untreated materials. For reference, all materials were hardened to values higher than those typical of stainless steels. Wear tests were carried out on three of the materials, PET, PI and epoxy. On the ion beam treated epoxy no wear could be detected, whereas the untreated material showed significant wear.

Mansur, Louis K [ORNL] [ORNL; Bhattacharya, R [UES, Incorporated, Dayton, OH] [UES, Incorporated, Dayton, OH; Blau, Peter Julian [ORNL] [ORNL; Clemons, Art [ORNL] [ORNL; Eberle, Cliff [ORNL] [ORNL; Evans, H B [UES, Incorporated, Dayton, OH] [UES, Incorporated, Dayton, OH; Janke, Christopher James [ORNL] [ORNL; Jolly, Brian C [ORNL] [ORNL; Lee, E H [Consultant, Milpitas, CA] [Consultant, Milpitas, CA; Leonard, Keith J [ORNL] [ORNL; Trejo, Rosa M [ORNL] [ORNL; Rivard, John D [ORNL] [ORNL

2010-01-01T23:59:59.000Z

472

6, 1205712120, 2006 Surface tension  

E-Print Network (OSTI)

ACPD 6, 12057­12120, 2006 Surface tension: measurement, modelling and cloud activation D. O a Creative Commons License. Atmospheric Chemistry and Physics Discussions Surface tensions of multi­12120, 2006 Surface tension: measurement, modelling and cloud activation D. O. Topping et al. Title Page

Paris-Sud XI, Université de

473

Tools for measuring surface cleanliness  

DOE Patents (OSTI)

A procedure and tools for quantifying surface cleanliness are described. Cleanliness of a target surface is quantified by wiping a prescribed area of the surface with a flexible, bright white cloth swatch, preferably mounted on a special tool. The cloth picks up a substantial amount of any particulate surface contamination. The amount of contamination is determined by measuring the reflectivity loss of the cloth before and after wiping on the contaminated system and comparing that loss to a previous calibration with similar contamination. In the alternative, a visual comparison of the contaminated cloth to a contamination key provides an indication of the surface cleanliness.

Schroder, Mark Stewart (Hendersonville, NC); Woodmansee, Donald Ernest (Simpsonville, SC); Beadie, Douglas Frank (Greenville, SC)

2002-01-01T23:59:59.000Z

474

E-Print Network 3.0 - airborne flux measurements Sample Search...  

NLE Websites -- All DOE Office Websites (Extended Search)

are threefold: (a) to examine how observed and simulated regional variations in surface heat ... Source: Geerts, Bart - Department of Atmospheric Science, University of Wyoming...

475

Two wells drilled from one surface bore with downhole splitter  

SciTech Connect

A downhole multiwell drilling template, called a downhole splitter, allows two wells to be drilled, cased, and completed from one well bore. After completion, each well can be produced, serviced, and worked over independently of the other. The downhole splitter was successfully field tested in Wyoming. The downhole splitter is suitable for use on offshore platforms, subsea completions, offshore exploitation and delineation wells, inland waters, and onshore in environmentally sensitive areas. It is also ideal for planned multilateral or multivertical completions. The paper describes the downholds splitter and its development, then discusses the field test: casing program, directional procedure, and results.

Collins, G. (Marathon Oil Co., Houston, TX (United States)); Bennett, R. (Baker Oil Tools, Houston, TX (United States))

1994-10-03T23:59:59.000Z

476

ARM - Measurement - Soil surface temperature  

NLE Websites -- All DOE Office Websites (Extended Search)

surface temperature surface temperature ARM Data Discovery Browse Data Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send Measurement : Soil surface temperature The temperature of the soil measured near the surface. Categories Surface Properties Instruments The above measurement is considered scientifically relevant for the following instruments. Refer to the datastream (netcdf) file headers of each instrument for a list of all available measurements, including those recorded for diagnostic or quality assurance purposes. ARM Instruments AMC : Ameriflux Measurement Component CO2FLX : Carbon Dioxide Flux Measurement Systems SOIL : Soil Measurement from the SGP SWATS : Soil Water and Temperature System MET : Surface Meteorological Instrumentation

477

Method of modifying a surface  

DOE Patents (OSTI)

The present invention provides a surface modification method that provides beneficial changes in surface properties, can modify a surface to a greater depth than previous methods, and that is suitable for industrial application. The present method comprises applying a thin-film coating to a surface of a substrate, then subjecting the coated surface to an ion beam. The ion beam power pulse heats the coated surface, leading to alloying between the material in the coating and the material of the substrate. Rapid cooling of the alloyed layer after an ion beam pulse can lead to formation of metastable alloys and microstructures not accessible by conventional alloying methods or intense ion beam treatment of the substrate alone.

Renk, Timothy J. (Albuquerque, NM); Sorensen, Neil R. (Albuquerque, NM); Senft, Donna Cowell (Albuquerque, NM); Buchheit, Jr., Rudolph G. (Columbus, OH); Thompson, Michael O. (Ithaca, NY); Grabowski, Kenneth S. (Alexandria, VA)

2000-01-01T23:59:59.000Z

478

Friction surfaced Stellite6 coatings  

SciTech Connect

Solid state Stellite6 coatings were deposited on steel substrate by friction surfacing and compared with Stellite6 cast rod and coatings deposited by gas tungsten arc and plasma transferred arc welding processes. Friction surfaced coatings exhibited finer and uniformly distributed carbides and were characterized by the absence of solidification structure and compositional homogeneity compared to cast rod, gas tungsten arc and plasma transferred coatings. Friction surfaced coating showed relatively higher hardness. X-ray diffraction of samples showed only face centered cubic Co peaks while cold worked coating showed hexagonally close packed Co also. - Highlights: Black-Right-Pointing-Pointer Stellite6 used as coating material for friction surfacing. Black-Right-Pointing-Pointer Friction surfaced (FS) coatings compared with casting, GTA and PTA processes. Black-Right-Pointing-Pointer Finer and uniformly distributed carbides in friction surfaced coatings. Black-Right-Pointing-Pointer Absence of melting results compositional homogeneity in FS Stellite6 coatings.

Rao, K. Prasad; Damodaram, R. [Department of Metallurgical and Materials Engineering - Indian Institute of Technology Madras, Chennai 600 036 (India); Rafi, H. Khalid, E-mail: khalidrafi@gmail.com [Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras, Chennai 600 036 (India); Ram, G.D. Janaki [Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras, Chennai 600 036 (India); Reddy, G. Madhusudhan [Metal Joining Group, Defence Metallurgical Research Laboratory (DMRL) Kanchanbagh, Hyderabad 500 058 (India); Nagalakshmi, R. [Welding Research Institute, Bharat Heavy Electricals Limited, Tiruchirappalli 620 014 (India)

2012-08-15T23:59:59.000Z

479

Influences of Sea Surface Temperature Gradients and Surface Roughness Changes on the Motion of Surface Oil: A Simple Idealized Study  

Science Journals Connector (OSTI)

The authors' modeling shows that changes in sea surface temperature (SST) gradients and surface roughness between oil-free water and oil slicks influence the motion of the slick. Physically significant changes occur in surface wind speed, surface ...

Yangxing Zheng; Mark A. Bourassa; Paul Hughes

2013-07-01T23:59:59.000Z

480

Generalized Focal Surfaces : A New Method for Surface Interrogation  

E-Print Network (OSTI)

and heat distribution on an airplane, tem- perature, rainfall, ozone over the earth's surface, etc. However. Apart from the pure con- struction of these curves and surfaces, the analysis of their quality- faces is of central importance for sophisticated CAD/ CAM systems. Apart from the pure construction

Hahmann, Stefanie

Note: This page contains sample records for the topic "ll surface wyoming" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


481

Generalized Focal Surfaces : A New Method for Surface Interrogation  

E-Print Network (OSTI)

and heat distribution on an airplane, tem- perature, rainfall, ozone over the earth's surface, etc. However. Apart from the pure con- struciion of these curves and surfaces, the analysis of their quality- faces is of central importance for sophisticated CAD/ CAM systems. Apart from the pure construction

Hahmann, Stefanie

482

Surface Imaging Using UHV-CTEM  

Science Journals Connector (OSTI)

......review-article Review Surface Imaging Using UHV-CTEM Katsumichi Yagi Physics Department...conventional transmission electron microscopies (UHV-CTEM) is reviewed. Techniques for routine...surface dynamic processes. surface imaging|UHV-CTEM|surface structure| Review / Electron......

Katsumichi Yagi

1995-10-01T23:59:59.000Z

483

Microsoft Word - 08101898_DocProd.doc  

Office of Legacy Management (LM)

and Surface Water and Surface Water Sampling at the Riverton, Wyoming, Processing Site February 2009 LMS/RVT/S01108 This page intentionally left blank U.S. Department of Energy DVP-November 2008, Riverton, Wyoming, Processing Site February 2009 RIN 08101898 Page i Contents Sampling Event Summary ...............................................................................................................1 Riverton, Wyoming, Processing Site, Sample Locations ................................................................3 Data Assessment Summary..............................................................................................................5 Water Sampling Field Activities Verification Checklist .............................................................7

484

Renewable Surface Fluorescence Sandwich Immunoassay Biosensor...  

NLE Websites -- All DOE Office Websites (Extended Search)

Renewable Surface Fluorescence Sandwich Immunoassay Biosensor for Rapid Sensitive Botulinum Toxin Detection in an Automated Renewable Surface Fluorescence Sandwich Immunoassay...

485

Development of SolGel Icephobic Coatings: Effect of Surface Roughness and Surface Energy  

Science Journals Connector (OSTI)

Development of SolGel Icephobic Coatings: Effect of Surface Roughness and Surface Energy ... Energy

Qitao Fu; Xinghua Wu; Divya Kumar; Jeffrey W. C. Ho; Pushkar D. Kanhere; Narasimalu Srikanth; Erjia Liu; Peter Wilson; Zhong Chen

2014-11-10T23:59:59.000Z

486

Lorentzian Metrics from Characteristic Surfaces  

E-Print Network (OSTI)

The following issue is raised and discussed; when do families of foliations by hypersurfaces on a given four dimensional manifold become the null surfaces of some unknown, but to be determined, metric $g_{ab}(x)$? It follows from these results that one can use these surfaces as fundamental variables for GR.

Simonetta Frittelli; Carlos Kozameh; Ted Newman

1995-02-11T23:59:59.000Z

487

Covariant description of isothermic surfaces  

E-Print Network (OSTI)

We present a covariant formulation of the Gauss-Weingarten equations and the Gauss-Mainardi-Codazzi equations for surfaces in 3-dimensional curved spaces. We derive a coordinate invariant condition on the first and second fundamental form which is necessary and sufficient for the surface to be isothermic.

Tafel, Jacek

2014-01-01T23:59:59.000Z

488

Covariant description of isothermic surfaces  

E-Print Network (OSTI)

We present a covariant formulation of the Gauss-Weingarten equations and the Gauss-Mainardi-Codazzi equations for surfaces in 3-dimensional curved spaces. We derive a coordinate invariant condition on the first and second fundamental form which is necessary and sufficient for the surface to be isothermic.

Jacek Tafel

2014-10-16T23:59:59.000Z

489

ARM - Measurement - Sea surface temperature  

NLE Websites -- All DOE Office Websites (Extended Search)

govMeasurementsSea surface temperature govMeasurementsSea surface temperature ARM Data Discovery Browse Data Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send Measurement : Sea surface temperature The temperature of sea water near the surface. Categories Surface Properties Instruments The above measurement is considered scientifically relevant for the following instruments. Refer to the datastream (netcdf) file headers of each instrument for a list of all available measurements, including those recorded for diagnostic or quality assurance purposes. External Instruments ECMWF : European Centre for Medium Range Weather Forecasts Model Data Field Campaign Instruments ECMWF : European Centre for Medium Range Weather Forecasts Model Data MIRAI : JAMSTEC Research Vessel Mirai

490

Technical Sessions Measurements of Surface Heat Flux Over Contrasting Surfaces  

NLE Websites -- All DOE Office Websites (Extended Search)

Measurements of Surface Heat Flux Measurements of Surface Heat Flux Over Contrasting Surfaces R. L. Coulter J. D. Shannon T. J. Martin Argonne National Laboratory Argonne, IL 60439 In a multilaboratory field study held near Boardman in northeastern Oregon in June 1991 and described in greater detail elsewhere (Doran et al. 1991), various properties of the surface and lower atmospheric boundary layer over heavily irrigated cropland and adjacent desert steppe were investigated. The locale was selected because its disparate characteristics over various spatial scales stress the ability of general circulation models (GCMs) to describe lower boundary conditions, particularly across the discontinuity between desert (in which turbulent flux of heat must be primarily as sensible heat) and large irrigated tracts (in which turbulent flux of latent heat should be the larger term).

491

3D Modelling of Enhanced Surface Emission by Surface Roughening  

Science Journals Connector (OSTI)

3D FDTD is used to study the effect of surface roughening on the emission of a point source embedded in GaAs with a mirror behind the dipole. Enhancement factors of 10:1 are observed.

Buss, Ian J; Cryan, Martin J; Ho, Daniel; Craddock, Ian; Nash, Geoff; Haigh, Mary K; Railton, Chris; Rarity, John G

492

Dropwise Condensation of Low Surface Tension Fluids on Omniphobic Surfaces  

E-Print Network (OSTI)

Compared to the significant body of work devoted to surface engineering for promoting dropwise condensation heat transfer of steam, much less attention has been dedicated to fluids with lower interfacial tension. A vast ...

Rykaczewski, Konrad

493

Embedded fiducials in optical surfaces  

DOE Patents (OSTI)

Embedded fiducials are provided in optical surfaces and a method for embedding the fiducials. Fiducials, or marks on a surface, are important for optical fabrication and alignment, particularly when individual optical elements are aspheres. Fiducials are used during the course of the polishing process to connect interferometric data, and the equation describing the asphere, to physical points on the optic. By embedding fiducials below the surface of the optic and slightly outside the clear aperture of the optic, the fiducials are not removed by polishing, do not interfere with the polishing process, and do not affect the performance of the finished optic.

Sommargren, Gary E. (Santa Cruz, CA)

2000-01-01T23:59:59.000Z

494

Accelerated Aging of Roofing Surfaces  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Accelerated aging of roofing surfaces Accelerated aging of roofing surfaces Hugo Destaillats, Ph.D. Lawrence Berkeley National Laboratory HDestaillats@LBL.gov (510) 486-5897 http://HeatIsland.LBL.gov April 4, 2013 Development of Advanced Building Envelope Surface Materials & Integration of Artificial Soiling and Weathering in a Commercial Weatherometer New York Times, 30 July 2009 2010 2012 Challenge: speed the development of high performance building envelope materials that resist soiling, maintain high solar reflectance, and save energy 2 | Building Technologies Office eere.energy.gov

495

Anisotropy and spatial variation of relative permeability and lithologic character of Tensleep Sandstone reservoirs in the Bighorn and Wind River basins, Wyoming. Quarterly report, January 1, 1996--March 31, 1996  

SciTech Connect

Work in conjunction with Marathon Oil Company in the Oregon Basin field utilizing Formation MicroImager and Formation MicroScanner logs has been completed. Tensleep outcrops on the western side of the Bighorn Basin are not of the quality necessary to do detailed study of stratification. This made the use of borehole imaging logs, in which stratification can be recognized, particularly attractive for the western side of the Bighorn Basin. The borehole imaging logs were used to determine the dip angle and dip direction of stratification as well as to distinguish different lithologies. It is also possible to recognize erosional bounding surfaces and classify them according to a process-oriented hierarchy. Foreset and bounding surface orientation data was utilized to create bedform reconstructions in order to simulate the distribution of flow-units bounded by erosional surfaces. The bedform reconstructions indicate that the bedforms on the western side of the basin are somewhat different from those on the eastern side of the Bighorn Basin. A report has been submitted to Marathon Oil Company, the principal cost-share subcontractor. Marine dolomitic units initially identified and correlated in the Bighorn Basin have been correlated into the Wind River Basin. Gross and net sand maps have been produced for the entire upper Tensleep in the Bighorn and Wind River Basins, as well as for each of the eolian units identified in the study. These maps indicate an overall thickening of the Tensleep to the west and south. This thickening is a result of both greater subsidence to the west and south and greater differential erosion to the north and east. An article documenting the North Oregon Basin field study will appear in the Gulf Coast Society of Economic Paleontologists and Mineralogists Foundation Conference volume entitled {open_quotes}Stratigraphic Analysis Utilizing Advanced Geophysical, Wireline and Borehole Technology for Petroleum Exploration and Production{close_quotes}.

Dunn, T.L.

1996-04-26T23:59:59.000Z

496

BLM biological assessment for T and E species for the WyCoalGas project. Final technical report, November 1980-May 1982. [Proposed WyCoalGas project; Converse County, Wyoming  

SciTech Connect

This volume considers the water requirements of the proposed plant and possible sources of water supply. The water requirements are 7900 acre-feet per year at full production (1720 acre-feet would be supplied by the moisture in the coal). Surface and ground water sources are described and a private reservoir would be built to store water. The priority of use from each source is considered. Also, in some cases other present water rights come first. In almost every year little or no water would be available during August and September. Endangered species in the area are considered, in particular, the effect of the increased water usage on them. (LTN)

Not Available

1982-01-01T23:59:59.000Z

497

ARM - Measurement - Surface skin temperature  

NLE Websites -- All DOE Office Websites (Extended Search)

skin temperature skin temperature ARM Data Discovery Browse Data Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send Measurement : Surface skin temperature The radiative surface skin temperature, from an IR thermometer measuring the narrowband radiating temperature of the ground surface in its field of view. Categories Radiometric, Surface Properties Instruments The above measurement is considered scientifically relevant for the following instruments. Refer to the datastream (netcdf) file headers of each instrument for a list of all available measurements, including those recorded for diagnostic or quality assurance purposes. ARM Instruments IRT : Infrared Thermometer MFRIRT : Multifilter Radiometer and Infrared Thermometer External Instruments

498

Surface temperature | OpenEI  

Open Energy Info (EERE)

Surface temperature Surface temperature Dataset Summary Description This dataset, made available by the UK Department of Energy and Climate Change (DECC), shows the difference between the yearly central England temperature for years 1772 through 2009 and the 1961 - 1990 baseline (1961 - 1990 Central England average after smoothing). It also shows the difference between average global temperature and 1961 - 1990 average after smoothing. The original source of the data is the Met Office. Source UK Department of Energy and Climate Change (DECC) Date Released March 12th, 2010 (4 years ago) Date Updated Unknown Keywords climate change Surface temperature UK weather Data application/vnd.ms-excel icon 1 Excel file: Surface Temps, 1772 - 1990 (xls, 1.3 MiB) Quality Metrics Level of Review Some Review